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2013 Publication of the Caltech Alumni Association
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A l u m n i R e u n i o n W e e k e n d A n d S e m i n A R d Aym Ay 1 6 – 1 9
T h e 2 0 1 3d i S T i n g u i S h e d A l u m n i AWA R d S
B u i l d i n g B e T T e R C o n n e C T i o n S
C a l t e c h
When Caltech leaders were asked to describe what makes Caltech special earlier this year, there was—as you might imagine—no single answer among them.
The Caltech advantage is rooted in its parts: the extraordinary faculty who choose to develop their scientific careers here, the young scholars who learn to question and problem solve here, and you—our alumni—who venture from our campus to explore, invent, build, and innovate.
This year was no exception. In October, Caltech was recognized—for the second consecutive year—as the world’s top institution of higher education by the UK’s Times Higher Education. This international recognition came just months after Caltech scientists and Jet Propulsion Laboratory engineers landed the car-sized ana-lytical laboratory called Curiosity on Mars, and after a Caltech team contributed to the discovery of the long-sought Higgs boson, the fundamental particle that is thought to endow elementary particles with mass.
Beyond our campus borders, Caltech’s 22,000 alumni continue to exemplify our story of excellence. Take a moment to read about this year’s Distinguished Alumni Award recipients and you will find groundbreaking contributions in research, academics, business, and philanthropy.
You will also find that they are people very much like yourself. Every day, you take bold leaps to solve unique problems, drawing upon the skills and training that you received while at Caltech. Your contributions as researchers, artists, educators, entrepreneurs, and inventors advance the bounds of our collective knowledge and help to shape our world.
Your Caltech degree offers you a place among—and access to—one of the most accomplished alumni networks of any institution. The Caltech Alumni Association, in partnership with Caltech, works to help you realize the full potential of that network, personally and professionally: through regular news updates, local and regional events, social networking, professional development, and more.
We invite you to join us on campus for Alumni Reunion Weekend and the 76th annual Alumni Seminar Day, where you will have the opportunity to learn about current research, connect with friends and colleagues, and share your own news.
You are an indispensable part of the Caltech story. From the time that you first stepped onto campus, your pas-sion and commitment to pursuing knowledge and excellence has helped make Caltech one of the world’s leading science and engineering research institutions. We are deeply proud and honored that you discovered Caltech.
For in many ways, our greatest discovery is you.
Jean-Lou Chameau Jim Simmons (BS ’72)President, Caltech President, Caltech Alumni Association
RediscoveRC A lT e C h
Jean-Lou ChameauPresident, Caltech
Jim Simmons (BS ’72)President, Caltech Alumni Association
Jean Lou Chameau
Jim Simmons
Jean Lou Chameau
Jim Simmons
2 C l e a n e n e r g y a C C e l e r at e s
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1 3 o u r g r e at e s t D i s C o v e r y
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2 1 a l u m n i r e u n i o n w e e k e n D a n D s e m i n a r D ay
2 2 a l u m n i r e u n i o n w e e k e n D m ay 1 6 – 1 9
2 4 7 6 t h a n n u a l s e m i n a r D ay m ay 1 8
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Inside the newly renovated lab, teams of stu-dents, postdoctoral scholars, staff researchers, and faculty are working to invent revolutionary, clean, and inexpensive methods for the next generation of fuels and power. Through the Jorgensen renovation, researchers have gained new prototyping facilities for turning lab break-throughs into market-ready inventions and experimental systems that are helping speed work on some of the toughest problems in energy science. These facilities include an advanced and customized type of ink-jet printer with which researchers can fabricate more than 100,000 sample materials per day. Each day, thousands of these materials can be tested for their ability to absorb light or to serve as catalysts for water-splitting—crucial steps in generating fuel from sunlight.
The Jorgensen Laboratory brings together researchers from Caltech’s nationally top-ranked divisions of Engineering and Applied Science (EAS) and Chemistry and Chemical Engineering (CCE).
“Our researchers are working with Caltech’s chemists and chemical engineers to challenge the status quo and translate scientific discovery into clean-energy innovations that will directly benefit society for generations to come,” says Ares Rosakis, EAS division chair and the Theodore von Kármán Professor of Aeronautics and professor of mechanical engineering.
“This facility capitalizes on Caltech’s extra-ordinarily collaborative culture. It equips our students and faculty to come together across fields to develop novel and viable approaches to renewable energy technologies,” adds Jacqueline Barton, CCE division chair and the Arthur and Marian Hanisch Memorial Professor and professor of chemistry.
JCAP, a U.S. Department of Energy (DOE) Energy Innovation Hub, is the nation’s largest re-search effort focused on artificial photosynthesis. Its researchers aim to create a low-cost generator that uses sunlight, carbon dioxide, and water to make fuels—after which they hope to hand that prototype off to private-sector companies to launch a new solar-fuels industry.
by Ann Motrunich
Caltech clean-energy research is accelerating thanks to the renovation of the earle m.
Jorgensen laboratory. transformed into a cutting-edge facility for energy science, the
lab unites two powerhouse programs: the resnick sustainability institute and the Joint
Center for artificial photosynthesis (JCap).
“We would think about our energy problem so differently if we could get this card on the table,” says Nate Lewis (BS ’77), JCAP director and Caltech’s George L. Argyros Professor and professor of chemistry.
The Resnick Sustainability Institute, for its part, is set up to foster Caltech-based research collaborations that have the potential to de-velop renewable-energy technologies that can be scaled up to power the planet.
Research supported by the Resnick Institute will yield tangible benefits even faster thanks to the new facilities, says Harry Atwater, the
institute’s director and Caltech’s Howard Hughes Professor and professor of applied physics and materials science. He predicts,
“Caltech will do for energy in the twenty- first century what it did for physics in the twentieth: reinvent it.”
clean eneRgy A C C e l e R AT e S
The recent renovations of the Jorgensen Laboratory included many upgrades that were designed to reflect Caltech's commitment to sustainability. Bottom-Right: Postdoc researcher Slobodan Mitrovic explains his work with nanostructures.
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Choking when the stakes are highIn studying brain activity and behavior, Caltech biologists and social scientists learned that the more loss-averse people are, the more likely it is that their performance will peak at a level far below their actual capacity.
here are some of the
most widely read and
shared news articles
from Caltech in 2012.
Amplifying researchResearchers at Caltech and JPL de-veloped a new kind of amplifier that can be used for everything from exploring the cosmos to examining the quantum world.
Boosting nerve-cell repairCaltech scientists developed a gene therapy that helps the brain replace nerve-cell-protecting myelin sheaths destroyed by spinal-cord injuries or diseases like multiple sclerosis.
powering toilets for the developing worldCaltech engineers won the Bill and Melinda Gates Foundation’s Rein-venting the Toilet Challenge with a solar-powered toilet that can safely dispose of human waste for just five cents per use per day.
Man in the MoonResearch by Caltech planetary scien-tists indicates that the “man in the moon”—an illusion caused by dark-colored volcanic plains—faces us be-cause of the rate at which the moon’s spinning slowed before becoming locked in its current orientation, even though the odds favored the moon’s other, more mountainous side.
swims like a jellyfishCaltech bioengineers partnered with researchers at Harvard University to build a freely moving artificial jellyfish from scratch, using silicon and muscle cells.
Understanding solar flaresBy studying jets of plasma in the lab, Caltech researchers discovered a surprising phenomenon that may be important for understanding how solar flares occur and for developing nuclear fusion as an energy source.
eyeing the X-ray universeNASA's NuSTAR telescope was launched on June 13. Its mission, which was Caltech led and designed, is to explore the high-energy X-ray universe and to uncover the secrets of black holes and the remnants of dead stars, as well as the mysteries behind energetic cosmic explosions—and even the sun.
Uncovering the Higgs bosonThe discovery of the long-sought Higgs boson, the fundamental particle that is thought to endow elementary particles with mass, was made possible in part by contributions from a large contingent of Caltech researchers.
And tHe #1 story is...
There’s a little more of Caltech on
Mars than first meets the eye. When
JPL landed Curiosity on the red
planet last August, a message was
hidden within the rover’s calibration
target, courtesy of Blacker House.
CUri
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y Af ter more than eight years of planning, 35 4 million miles of space travel, and seven minutes of terror, nAsA’s Mars science Laborator y successfully landed on the red planet on August 5. the roving analytical laboratory, named Curiosity, is now using its 10 scientific instruments and 17 cameras to search Mars for environments that either were once—or are now—habitable.
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Charles Townes (Phd ’39) received the first “golden goose Award”—honoring research resulting in significant human benefit—for his discovery of the Maser and laser.
Xie Jialin (Ms ‘48) was presented with China’s top science and technology award by Chinese President hu Jintao.
Carver Mead (bs ‘56, Phd ‘60) was awarded the bbVA Foundation Frontiers of Knowledge Award.
Harrison H. Schmitt (bs ’57) was honored by the new Mexico Museum of space history for his distinguished career as an astronaut.
Dick Van Kirk (bs ’58) was elected to a leadership role at the special olympics summer World games.
1 9 6 0 sIvan E. Sutherland (Ms ’60) won the Kyoto Prize in Advanced technology for achievements in computer graphics.
Cleve Moler (bs ’61) was honored by the institute of Electrical and Electron-ics Engineers for his invention of the numerical computing environment and programming language MAtlAb.
Michael M. Rosbash (bs ’65) was appointed to the endowed chair in neuroscience at brandeis university.
Michael Baskes (bs ’65, Phd ’70) was elected to the national Academy of Engineering.
Sean Solomon (bs ’66) was named director of the lamont- doherty Earth observatory.
David A. Evans (Phd ‘68) was awarded the Welch Award in Chemistry for his contributions to organic reaction design.
Leroy Hood (Phd ’68) received the national Medal of science.
Thomas H. Jordan (bs ’69) was recognized by the American geosciences institute for his contributions to the public under-standing of the geosciences.
1 9 7 0 sTrinh Xuan Thuan (bs ’70) received the Cino del duca Prize from the French institute for his efforts to popularize science worldwide.
Sarah C. R. Elgin (Phd ’72) was elected to the American Association for the Advancement of science.
Frank Kendall (Ms ’72, Eng ’74) was named defense under secretary for Acquisition, technology and logistics.
Steven Koonin (bs ’72 and former Caltech provost) was named the director of nyu’s new Center for urban sciences and Progress.
Jessica Tuchman Mathews (Phd ’73) was elected to the harvard Corporation.
William Ward (Phd ’73) was named a fellow of the American Academy of Arts and sciences.
Lily Jan (Phd ’74) and Yuh Nung Jan (Phd ’75) received the gruber neuroscience Prize for fundamental contributions to molecular neurobiology.
David Lee (Phd ’74) was named chair of the Caltech board of trustees.
Alan P. Lightman (Phd ’74) heads a foundation to provide educational and leadership opportunities to women in Cambodia.
George C. Schatz (Phd ’76) was recognized with an honorary doctor of science degree at Clarkson university.
John Gustafson (bs ’77) became chief graphics product architect at Advanced Micro devices, inc.
Beatriz Infante (Ms ’77) was appointed to the board of directors of Emulex Corporation.
Thomas Peterson (Phd ’77) was named provost at uC Merced.
France Córdova (Phd ’79) received an honorary doctorate from Purdue university for her service and leader-ship as its 11th president.
Eli Dwek (Phd ’79) was named a fellow of the American Association for the Advancement of science.
1 9 8 0 sArati Prabhakar (Ms ’80, Phd ’85) was named the new director of the defense Advanced Research Projects Agency (dARPA).
Philip Hanlon (Phd ’81) was selected as the 18th president of dartmouth College.
Charles M. Rice (Phd ’81) was honored by the belgian Royal Academy of Medicine.
Walter G. Kortschak (Ms ’82) was elected to the Caltech board of trustees.
Charles A. Wight (Phd ’82) was named president of Weber state university in utah.
David Jewitt (Phd ’83) won the Kavli Prize and the shaw Prize in recognition of his discovery of the Kuiper belt.
Roch Guérin (Phd ’86) was named chair of the computer science and engineering department at Washington university in st. louis.
Stephen Hsu (bs ’86) was named vice president for research and graduate studies at Michigan state university.
Deven Kalra (Ms ’87, Phd ’90) was named vice president of engi-neering for Athoc, which provides emergency mass notification and crisis-communication systems.
Hanif S. Mamdani (bs ’87) was identified by Barron’s as a top fund manager.
Joe Cline (Phd ’88) was named vice provost of undergraduate education at the university of nevada, Reno.
Reed Henry (Ms ’88) was named as the chief marketing officer for genesys, a customer service software provider.
Steve Mayo (Phd ’88) was named the William K. bowes Jr. Foundation division chair at Caltech.
Andrea Ghez (Ms ’89, Phd ’93) won the Crafoord Prize.
Richard Hsu (bs ’89) became a partner at shearman & sterling, llP.
1 9 9 0 sYu-Hung Kuo (bs ’90) was appointed co-director of the neuro-oncology Center at stony brook university.
Anton Monk (Ms ’90) was named to the board of RVu Alliance, a consortium of content-service- provider, semiconductor, and consumer-electronics companies.
Robert Behnken (Ms ’93, Phd ’97) was named chief of the Astronaut office for nAsA.
Rohan Mahadevan (bs ’93) was appointed PayPal’s vice president for Asia.
Jeffrey Prisbrey (Phd ’93) was appointed vice president for competition/antitrust practice at Charles River Associates.
Richmond Wolf (Ms ‘94, Phd ‘97) was elected to the Caltech board of trustees.
Marcia France (Phd ’95) was named associate dean at Washington and lee university.
Kenneth T. Christensen (Ms ’96) was appointed associate head for mechanics programs at the university of illinois at urbana-Champaign.
Paul Asimow (Phd ’97) won the Feynman Prize for Excellence in teaching at Caltech.
Mark Long (Phd ’99) was singled out as Cto of the year for a company of 100 – 500 employees by the LA Times.
2 0 0 0 sHeather Dean (bs ‘00, Ms ’00) began her fellowship in Washington, dC, for the American Association for the Advancement of sciences.
Christopher Hirata (bs ‘01), Kevin Tang (Phd ‘06), and Rebecca Washenfelder (Phd ‘06) received the Presidential Early-Career Award.
Andrei Faraon (bs ’04) joined Caltech as assistant professor of applied physics and materials science.
Helen Chuang (bs ’03) received the award for innovation from Women of Color in technology.
Bettina Chen (bs ’10) founded Room-inate, a toy company created to help inspire girls to pursue the sciences.
Jessie Rosenberg (Phd ’10) was cho-sen by Forbes magazine as one of “30 under 30” in science and innovation.For more alumni in the news, go to a l u m n i . c a l t e c h . e d u
f i r s t p r e s e n t e D i n 1 9 6 6 , t h e D i s t i n g u i s h e D a l u m n i a w a r D
i s g r a n t e D i n r e C o g n i t i o n o f a p a r t i C u l a r a C h i e v e m e n t o f
n o t e w o r t h y va l u e , a s e r i e s o f s u C h a C h i e v e m e n t s , o r a
C a r e e r o f n o t e w o r t h y a C C o m p l i s h m e n t. i t i s t h e h i g h e s t
h o n o r t h e i n s t i t u t e B e s t o w s u p o n a g r a D u at e .
t h e e n t i r e C a lt e C h C o m m u n i t y C e l e B r at e s t h e f o l l o w i n g
s i x i n D i v i D u a l s f o r t h e i r g r o u n D B r e a k i n g C o n t r i B u t i o n s i n
r e s e a r C h , a C a D e m i C s , B u s i n e s s , a n D p h i l a n t h r o p y.
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The 2013
distinguishedA l u m n i AWA R d S
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th e o uts ized i m pa ct th at c a ltec h c o nti n u es to
h ave o n th e s c i en c es i s R em a R k a b le. i R em a i n i n
a w e o F th e b R i ll i a nt m i n d s a s s em b led h eR e.
After a briefing on an innovative new theory on information transmission, Juris Hartmanis was ignited with inspiration.
A research mathematician at GE Labs in the early 1960s, Hartmanis saw a correlation with his own work.
“I remember wondering, ‘Could there be a quantitative theory of computation?’”
The answer was yes.Hartmanis grew up in Latvia,
partially under Soviet and German occupation. He finished high school in Germany and earned a degree in physics at the University of Mars-burg before coming to America to study mathematics at the University of Kansas and then Caltech.
“Caltech, in their wisdom, decided that I looked more like an applied mathematician than a physicist,” Hartmanis laughs.
Following stints teaching at Cornell and Ohio State University, Hartmanis joined the venerated GE Labs in Schenectady, New York. Together with Richard Stearns, he studied computation, focusing on Turing machines.
The lecture on noise reduction gave Hartmanis an idea: Could they mathematically quantify the efficiency of computing?
“Take the traveling salesman,” he says, citing a classic mathemat-ical problem: A salesman must crisscross the country to make calls to a number of cities. Which route will be the most efficient?
“The problem is good for a computer because it requires mathematical brute force. You must measure all of the possible routes and compare the results to find the answer.”
Hartmanis and Stearns wanted to know if they could proactively quantify how much time such a problem would take to compute.
The result was a seminal paper on computational complexity, published in 1965. In it, Hartmanis and Stearns introduced the time-hierarchy theorem, codifying exactly how a machine, given more time, could solve more problems and defined classes of computational complexity.
Hartmanis and Stearns work ultimately earned them a Turing award in 1993 for helping establish computer science as a formal discipline distinct from mathematics, physics, and electrical engineering. Hartmanis eventually returned to Cornell, where he continued his work and co-founded the university’s computer science department.
Today, he confesses that one of the most satisfying aspects of his work has been to see others build upon it—including researchers at Caltech.
“The outsized impact that Caltech continues to have on the sciences is remarkable,” he says.
“I remain in awe of the brilliant minds assembled here.”
C a l t e c h D e g r e ePhD ’55 Mathematics
C u r r e n t T i t l e Walter R. Read Professor of Engineering, Emeritus; Cornell University
S e l e c t e d A c h i e v e m e n t sDeveloped the field of computational complexity, a major contribution to the development of theoretical computer-science • Created one of the first computer science departments in the country, now ranked within the top five worldwide • Assistant director of the National Science Foundation for Computer and Information Science and Engineering (CISE) • Chair, National Research Council, Study of the Scope and Direction of Computer Science
S a m p l i n g o f A w a r d sGold Medal of the Latvian Academy of Science (Lielo Medalu), 2001 • Computer Research Association (CRA) Distinguished Service Award, 2000 • B. Blozano Gold Medal of the Academy of Sciences, Czech Republic, 1995 • Humboldt Foundation Senior US Scientist Award, 1993-94 • The Turing Award (with Richard Stearns), 1993
Juris Hartmanis (left) and research partner Richard Stearns at GE Labs in the early 1960s. Hartmanis and Stearns share the Turing Award for their 1965 paper on computational complexity.
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y. C . L . s U s A n w Up h D ’ 6 3
Hope came from Pasadena- based Electro-Optics Corporation, which offered Wu a position researching magneto-hydrody-namic (MHD) propulsion—an alternative way to generate power using electric and magnetic fields and a domain, at the time, Wu knew nothing about.
“They offered to pay for my sur-gery, so I took the job,” Wu says.
“It ended up defining my career.”Wu later joined the faculty
at the University of Tennessee Space Institute, where she continued to focus on MHD power generation. For the next 20 years, she led the university’s energy program, pioneering new analytical models for MHD performance while becoming a leading authority in the field.
By 1988, Wu was ready for change. “But I wasn’t ready to fully retire,” she confesses. Instead, she poured her intelligence and enthusiasm into founding ERC, Inc.—a start-up focused on aero-space, defense, and information technology, based in Tullahoma, Tennessee. Today, what began as Wu and a part-time secretary is now a financially robust firm that employs more than 700 people in five states.
Wu credits Caltech with teaching her how to approach and solve a problem—a crucial ingredient to her success.
“Armed with that knowledge,” she adds, “there’s almost nothing you can’t accomplish.”
a R m ed w ith th e kn o w led g e o F h o w to
a p p R o a c h a n d s o lve a p R o b lem , th eR e’ s
a lm o st n oth i n g yo u c a n ’t a c c o m p li s h .
During her final year at Caltech in 1962, Susan Wu received alarm-ing news. Her doctor explained that she had a congenital heart condition—a hole in the organ’s lining—that demanded poten-tially life-threatening surgery.
Wu, then 30, was already seasoned in overcoming obstacles. Her family left Beijing to escape China's bloody civil war, eventually settling in Taiwan. There, Wu had earned her first degree in engi-neering. Communist China offered few prospects to female scientists, so Susan and fellow student James Wu had left home, emigrating to the United States in 1957.
The pair continued their studies in different parts of the United States, married, and ultimately joined the Graduate Aerospace Laboratories (GALCIT) at Caltech. Wu quickly earned accolades for her methodical research. And in 1963, she became the first woman to earn a doctorate in aeronautics from the Institute.
Initially, a world of opportuni-ties appeared to open. But Wu’s fateful diagnosis dramatically narrowed the field.
“My first concern was for my family,” she recalls—Wu had given birth to her two children while earning her degree at Caltech. Open-heart surgery was still new and dangerous, and even if it went well, there were the costs to consider. Few corporate insurance carriers would cover such a serious pre-existing condition.
C a l t e c h D e g r e e PhD ’63 Aeronautics
C u r r e n t T i t l e Chairman, ERC, Inc.
S e l e c t e d A c h i e v e m e n t sDeveloped pioneering analytical models for MHD power generation and performance • Directed a leading energy-research program at the University of Tennessee Space Institute • Founded and led ERC, Inc., a distinguished provider of scientific and engineering services supporting the nation’s defense and space- exploration activities
Sampling of AwardsFaraday Medal, awarded by the International MHD Liaison Group, 1999 • Plasma Dynamics and Laser Award, AIAA, 1994 • Distinguished Achievement Award of American Chinese Engineers, 1986 • Achievement Award, Society of Women Engineers, 1985
Susan Wu pictured at Caltech graduation in 1963 with her two sons, Ernest and Albert. She was the first woman to receive a PhD in aeronautics from the institute.
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s é B A s t i A n M . C A n d e L m s ’ 6 9 / p h D ’ 7 2
my ye a R s at c a ltec h m o d i F i ed th e
eq u ati o n Fo R th e tR a j ecto Ry o F my l i Fe.
Before a series of experiments in 1994 at Onera, the French national aerospace research center, Sébastien Candel asked the assembled group of experts to draw a sketch. A model scale rocket engine was about to fire in a test, fed with liquid oxygen and high-speed gaseous hydrogen. Candel’s question was straight-forward: Where, exactly, did each fellow researcher think the actual flame would start? At the injector outlet? Somewhere at a distance from it?
... He invited them to draw their answers.
No one got it right.Candel recalls, “For years, we
had been designing engines and launching rockets, and we were [still] learning something new about the structure of the flame and its stabilization.” (The test revealed that the flame was anchored at a point right at the edge of the injector’s inner channel, which conveyed the liquid oxygen stream.)
Candel, who has spent his career studying aerospace sciences, focus-ing on combustion, is used to such surprises. “It turns out that, partic-ularly with combustion, engineers are pretty good at building things that work,” he said. “But we just don’t always fully understand why.”
Part of what makes combus-tion so complex is linked to the nature of turbulence—something Richard Feynman once described
as “the most important unsolved problem of classical physics.” Fast reactions and intense chemical conversion complicate the picture even more.
Candel, through his research and teaching, has helped to provide significant insight into this field.
Candel arrived at Caltech in 1968, armed with a Harkness Fellowship (established in 1925 and modeled after the Rhodes Scholarship). After researching aeroacoustics under the direction of Frank Marble, an ally who assisted Candel throughout his career, Candel returned to France and ultimately joined the faculty at Ecole Centrale Paris. There, he headed the mechanical and aero-space studies program and initiated combustion and propulsion work at the EM2C, CNRS laboratory.
His ongoing research has con-tributed to significant advances in the fields of combustion, aeroacoustics, and propulsion.
“Candel has played a major role in developing some of the fun-damentals of rocket propulsion,” said Charles Elachi (PhD ’71), director of Jet Propulsion Laboratories. “He exemplifies the best in a Caltech graduate.”
For Candel, Caltech was a game-changer. “When I arrived, I barely knew what research was all about,” he says. “My years at Caltech, particularly with Frank, modified the equation that defined the trajectory of my life.”
C a l t e c h D e g r e e sMS ’69 Mechanical Engineering • PhD ’72 Mechanical Engineering and Applied Mathematics
C u r r e n t T i t l eProfesseur des Universités, Ecole Centrale Paris and honorary member of Institut Universitaire de France
S e l e c t e d A c h i e v e m e n t s Innovative and outstanding contribu-tions to combustion theory • Extensive and pioneering technical contributions to aerospace literature, including seminal papers on turbulent combus-tion, dynamics of perturbed flames, combustion instability and control, advanced rocket combustion processes and computational aeroacoustics • Gave the esteemed Combustion Institute’s Hottel plenary lecture in 2002
S a m p l i n g o f Awa r d sElected to the Air and Space Academy of France, 2012 • Elected to French Academy of Science, 2011 • Zeldovich gold medal of the Combustion Insti-tute, 2010 • Elected to the National Academy of Engineering of the United States, 2009 • Pendray Aerospace lit-erature award, AIAA, 2005 • Chevalier de la Legion d’Honneur, 2000 • Marcel Dassault Grand Prize of the French Academy of Sciences, 2000 • Founding member of the French Academy of technologies, 2000 • Silver medal of the French National Center for Scientific Research, 1993
Top: Sébastian Candel with Frank Marble during a research visit in 1985. Bottom: Addressing the French Academy of Science upon his election in 2011.
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U M A C H o w d H r y m s ’ 7 0
“I’ll never forget the day I received the letter that said I’d been accepted to Caltech,” says Uma Chowdhry.“ I was in seventh heaven.”
Born in Mumbai, India, Chowdhry was the youngest of three children. Her father challenged his children to excel in academics (schooling he’d been unable to complete). And after earning her bachelor’s in physics a the Institute of Science in Mumbai, Chowdhry set her sights on an ambitious dream: to study physics in the United States and someday win the Nobel prize.
“There were three Nobel Laure-ates at Caltech who were particle physicists, so of course I thought that’s what I would do,” Chowdhry says.“Ignorance is bliss. My naivete allowed me to dream courageously.”
Once at Caltech, metallurgy professor Pol Duwez delivered a career-changing twist, propelling her into the emerging field of material science—the study of fundamental physical and chemical properties of materials.
“He said, ‘If you’re a little interested in materials, I’ll make you much more interested,’” Chowdhry recalls.
She eventually earned a PhD in the field from MIT while her future husband Vinay, a chemist, studied at Harvard.
Interested in joining a research lab, Chowdhry landed at DuPont where she continue her work in advanced ceramic materials. Chem-ically similar to china, porcelain, or glass, ceramics don’t normally
conduct electricity. But Chowdhry and her team utilized solid state chemistry principles to produce su-perconducting oxide ceramics. Their work generated more than 20 pat-ents, and numerous publications. Chowdhry and her team went on to work on ceramics for electronic packaging which led to commercial materials for electronic substrates.
“DuPont has a marvelous history of transforming the world—in tex-tiles, construction, and transpor-tation.” Chowdhry recalls, “It was like being in a giant sandbox with incredible tools where we were encouraged to play and produce groundbreaking results.”
In 2006, Chowdhry became DuPont’s chief science and tech-nology officer—the first woman to assume the role at a Dow 30 company. She spearheaded a global effort to bring DuPont’s research, marketing, and manu-facturing efforts into alignment; then shepherded the company’s expansion into emerging econ-omies, establishing facilities in China, India, and Brazil—all while remaining a champion at the forefront of sustainability.
With many private companies migrating towards mission-based research, Chowdhry now sees the role of research universities—par-ticularly Caltech—as increasingly essential for pure science. She tells young researchers to aim high.
“Pick the most important issues of the day that fascinate you and go after them,” she encourages.
“Dream courageously.”
Uma Chowdhry at DuPont in 1981, researching superconductive ceramics, work that generated more than 20 patents and numerous practical applications.
p i c k th e m o st i m p o Rta nt i s s u es o F th e d ay th at Fa s c i n ate
yo u a n d g o a F teR th em . d R e a m c o u R a g eo u s ly.
C a l t e c h D e g r e eMS ’70 Engineering Science
C u r r e n t T i t l eChief Science and Technology Officer, Emeritus
S e l e c t e d A c h i e v e m e n t sBecame the first female CSTO at a Dow 30 company (DuPont) • Provided leadership at the fulcrum of global R&D management, strategic planning, engineering technology management, and business management at DuPont • Formulated the strategy for global R&D programs, policies, and procedures to advance DuPont’s vision, competitive position, and profitability • Guided groundbreaking innovation that garnered DuPont several significant industry awards
S a m p l i n g o f Awa r d sAmerican Chemical Society (ACS) Earle B. Barnes Award for Leadership in Chemical Research Management, 2011 • Industrial Research Institute (IRI) Medal Award, 2011 • Numerous achievement and leadership excellence awards from DuPont, Delaware Women’s Hall of Fame, and many other organizations and non-profits
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s t e p H e n w o L f r A Mp h D ’ 8 0
As a Caltech faculty member and researcher studying theoretical physics in the early 1980s, Stephen Wolfram often found himself frustrated—at a computer.
“I needed to rapidly compute equations for my research,” Wolfram explains, but he found the software available at the time to be lacking—a problem he believed he could solve by creating a brand new computer language.
The result, co-developed with a small group of handpicked recruits, was the computer algebra system Symbolic Manipulation Program (SMP). The effect was logarithmic. SMP released commercially in 1981, spawned a software company, helped earn Wolfram a MacArthur Fellowship, and sparked a lifelong fascination with computational complexity.
Wolfram regularly introduces a key concept with an illustration: A collection of very basic programs are coded with a set of rules. The programs—which Wolfram dubbed “cellular automata”—launch out like little worker bees to construct a very simple image resembling a pyr-amid. With only slight variations to their coding, however, the automata create an image wildly more complex, producing ele-gant, cascading, interconnected patterns Wolfram describes as
“computationally irreducible.”“When I first saw that, it came
as a huge shock to my intuition,” Wolfram confesses. “A very simple program can produce a pattern
too complex to predict. The only way to find its outcome is effec-tively to simply watch it evolve.”
In 1988, Wolfram turned his focus to business, releasing a new version of his computing software, Mathematica—now considered one of the standard software-lan-guage environments for scientific, technical, and algorithmic compu-tation and software development. Wolfram continued his research behind the scenes, and in 2002 published A New Kind of Science, a 1,200-page book detailing his extensive study into computa-tional complexity.
By 2009, Wolfram released Wolfram|Alpha, a muscular Web-based “computational knowledge engine.” Similar to a search engine, the service accepts freeform text queries, but instead of merely polling, it both sources and com-putes relevant data in real time using approaches outlined in his book. Wolfram’s ambitious hope is to make all systemic knowledge immediately computable and accessible to everyone.
Today, Wolfram remains as surprised and fascinated by the intersection of nature and computing as when he began, and he predicts it will help unlock ever-greater mysteries.
“Incredibly simple systems can do sophisticated computation,” he says. “I believe this has deep implications on issues such as biological processes, economies, artificial intelligence…the limits of science itself.”
C a l t e c h D e g r e e sPhD ’80 Physics
C u r r e n t T i t l eCEO, Wolfram Research
S e l e c t e d A c h i e v e m e n t s MacArthur Fellowship, 1981 • Founded numerous companies and organizations, including: Computer Mathematics Corporation (later merged into Inference Corporation), 1981 • Center for Complex Systems Research, 1986 • The Journal Complex Systems, 1987 • Wolfram Research, 1987
Developed computing software Mathe-matica, considered one of the standard software-language environments for scientific, technical, and algorithmic computation and software development, 1988 • Synthesized more than 10 years of research into seminal book A New Kind of Science, 2002 • R&D Magazine’s Scientist of the Year, 2002 • Launched Wolfram|Alpha, a Web-based computa-tional knowledge engine, 2009
Top: Stephen Wolfram in 1978, at that time the youngest PhD candidate at Caltech. Bottom: “Rule 18”— one of the patterns produced by Wolfram’s cellular automata.
i n c R ed i b ly s i m p le system s c a n d o s o p h i st i c ated
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J A M e s r . f r U C H t e r M A nB s ’ 8 0 / m s ’ 8 0
It was a Caltech lecture on weapons systems that steered James Fruchterman toward a life of philanthropy.
The discussion focused on missile guidance systems employ-ing optical target recognition. Fruchterman remembers, “I went back to my dorm room and thought, ‘How could we use that technology for something a little more benign?’”
The answer came to him quickly: a text-reader for the blind.
Fruchterman rushed back across campus to tell his instruc-tor about his idea. A discussion revealed the concept was tech-nically flawed, but Fruchterman maintained his enthusiasm.
“As a budding researcher, you hope to come up with an idea that could have a profound im-pact,” he explains. “I felt strongly that this was my really big idea.”
Years later, a colleague introduced Fruchterman to a re-searcher from Hewlett-Packard—an entrepreneur who wanted to develop a chip he’d invented ... also to recognize text.
The three formed Calera Recognition Systems, a start-up that quickly developed a break-through optical text-recognition technology that yielded large commercial applications. Though
financially lucrative, it didn’t fulfill Fruchterman’s true passion. So in 1989, he founded spin-off company Arkenstone, Inc., which built reading devices based on Calera technology.
Then, in 2000, Fruchterman took an even larger step. He sold Arkenstone and used the capital to found Benetech—a nonprofit specializing in adapting commercial technology to help the disabled.
Benetech has catalyzed an impressive, sustained, positive effect on global literacy, human rights, and the environment. The company’s online library software, Bookshare, now holds more than 50,000 titles. And in 2012, Benetech helped prepare the United Nations report on Syria’s human-rights crisis.
As for his personal accolades, Fruchterman sees them strictly as leverage to garner more support. (He frequently visits Silicon Valley colleagues—not to ask for money, but for permission to license their technology. He often gets it.)
“As much as anything, engi-neers and inventors are problem solvers who want their work to be relevant,” he says. “If we can measure our endeavors by the lives we improve, then we can truly say we’re successful.”
i F w e c a n m e a s u R e o u R en d e avo R s by th e l ives th at
w e a R e a b le to m a ke b et teR , th en w e c a n tR u ly s ay
th at w e a R e s u c c es s Fu l.
An early Arkenstone model. Fruchterman adapted optical text recognition technology from his commercial venture to create a reading device to aid the blind, such as the one pictured above. The experience inspired him to found the company Benetech.
C a l t e c h D e g r e e s BS ’80 Engineering • MS ’80 Applied Physics
C u r r e n t T i t l e Founder, President, and CEO, Benetech
S e l e c t e d A c h i e v e m e n t sCo-founder of two successful Silicon Valley tech corporations • Co-founder of the Social Enterprise Alliance, the nation’s leading social-enterprise association • Leading developer of open-source software for the human- rights and environmental movements • Founder of Benetech, Silicon Valley’s leading nonprofit, responsible for creating Bookshare, the largest online library for the blind
S a m p l i n g o f Awa r d sMacArthur Fellowship, 2006 • Duke University, CASE Award for Enterpris-ing Social Innovation, 2011 • Brigham Young University, Center for Economic Self-Reliance Social Innovator of the Year, 2009 • AT&T Technology Innovation Award from the Alliance for Technology Access, March 2008 • Fast Company Social Capitalist Award: Top 20 Groups Changing the World, 2004
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“Every day I get to use lasers to shed new light on the signatures of life on other worlds.”
m o R g A n C A B l e (p h D ’ 1 0)
NASA Postdoctoral Fellow working at JPL to detect extraterrestrial organic compounds.
since i t s f ounding in 1 8 9 1 , Cal t ech’s r esear cher s, facul t y and alumni have de veloped t he pr inciples o f moder n av iat ion,
es t ablished ho w t o measur e ear t hquakes, uncover ed pr oo f o f an t imat t er, discover ed quasar s, and quar k s, and as sis t ed in t he
discover y o f t he elusi ve higgs-boson par t icle —jus t t o name a f e w. Among them all, one ongoing discover y stands out.
ouR gReATeS T diSCoVeRy iS...
“The most exciting days by far are when you come up with a new idea or direc-tion for an experiment, and you can’t stop thinking about it the whole day.”
n o e l l e S T i l e SPhD candidate in Computation and Neural Systems (CNS)
“Caltech has enabled a structural engineer like me to think freely and explore—to transform the engineering of manmade structures, hopefully (in the long run) making the world a lot safer!”
S WA m i n AT h A n k R i S h n A n (p h D ’ 0 4)
Assistant Professor of Structural Engineering and Geophysics at Caltech
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“I wanted a research project that was smaller and more focused, and that’s exactly what I got with Dr. Libbrecht. I feel like I’m helping to fill a hole in the research world.”
n i n A B u d A e VA (B s ’ 1 3)
Research assistant in Kenneth Libbrecht’s Soft Condensed Matter Physics Laboratory. Studying the transition points of snowflakes.
“There’s really no place like Caltech. I love the general buzz of excitement over education and the collaboration of brilliant scientific minds that can only be found here.”
S TA n f o R d S C h o R (B s ’ 14)
Biology and Chemistry
“The closer I get to graduation, the more I come to appreciate the sheer number of opportunities that Caltech has afforded me.”
J o n AT h A n S C h o R (B s ’ 14)
Biology and Chemistry
“Caltech is the place where there is always a brilliant mind within 10 meters.”
P e T e R h u n g (B s ’ 0 8 , m s ’ 1 2)
PhD candidate in Applied Physics, working with Michael L. Roukes in nanoscale systems
“I believe that the house system at Caltech helps to foster bonds and lifetime friendships in ways that set us apart from any other campus.”
m i C h e l l e TA n g (B s ’ 14)
Bioengineering/PremedInterested in pursuing pediatric medicine
one o f Cal t ech’s gr eat es t s t r eng t hs is i t s people: s t udent s w ho lear n t o ques t ion and pr oblem sol ve, ex t raor dinar y facul t y w ho choose t o develop t heir scient i f ic car eer s her e,
and you— our alumni— w ho vent ur e f r om our campus t o ex plor e, invent , build, and innovat e. your cont r ibu t ions as r esear cher s, ar t is t s, educat or s, ent r epr eneur s, and invent or s
make pos sible t he achievement s t hat ad vance t he bounds o f our collec t i ve k no w ledge and help t o shape our w or ld. we celebrat e our gr eat es t r esour ce, legac y, and f u t ur e... you.you.
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“We’re figuring out simple methods to study how cells can change their fate. It is amazing to see the flexibility of life at the cellular and tissue level.”
L A Be e d Be n - GH A LyPHD candidate in Biology working in the Meyerowitz Lab
“At Caltech I have learned so much about being both a good scientist and an effective instructor and mentor."
k A i T ly n l u C e yPhD candidate in Environmental Science and Engineering
“I am helping to develop sustainable energy technology so that society can reduce its dependence on fossil fuels.”
A n n A B e C k (p h D ’ 1 2)
Postdoctoral scholar in Applied Physics and Material Science, working with the Atwater research group on silicon-microwire devices
“As a student, I always heard people brag that Caltech's training was ahead of the rest. I thought, 'Oh, baloney. I'm sure other programs are just as good.' Then I discovered that it was true. I was extremely well prepared by Caltech, and I'm eternally grateful."
J u l i A ko R n f i e l d (B s ’ 8 3 , m s ’ 8 5)
Professor of Chemical Engineering at Caltech
“Caltech taught me the power of collaboration. When a group of Techers work together, there is nothing we can’t accomplish.”
d AV i d T y T e l l (B s ‘ 9 9)
Marketing and communications manager, MIT Medical
“Being in the Caltech Alumni Association allows me to strengthen my lifelong friendships and make new connections with interesting and like-minded Techers across generations.”
h e AT h e R d e A n (B s ‘0 0 , m s ‘0 0)AAAS Science and Technology Policy Fellow at the National Science Foundation
“Only Techers can fully understand and appreciate the unique culture, values, capabilities, and training that fellow alums have.”
J i m S i m m o n S (B s ’ 7 2)
Managing member, Simmons Goodspeed Investment Management, an early stage venture capital firm
“Caltech equips me to pursue imaginative research into synthetic biology as it relates to propulsion, discovering ways in which we can probably improve on natural performance.”
J o h n d A B i R i (p h D ’ 0 5)
Professor of Aeronautics & Bioengineering and director of Caltech’s Biological Propulsion Lab
"My Caltech degree fostered my ability to tackle the kind of broad, often vaguely defined questions that pepper policymaking and data science today— and to rally others to help solve them."
Ay e h B A n d e h -A h m A d i (B s ‘0 2)PhD candidate in economics at the University of Maryland
“Every day I get to grapple with cutting edge legal and scientific issues, and I represent a great client—Caltech!”
C h A n TA l d ’A P u z z o (p h D ’0 0)
Associate general counsel for Caltech specializing in intellectual property and research affairs
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The mission of the Caltech Alumni Associ-ation is to promote the interests of Caltech as a world standard of academic excellence by strengthening the ties of goodwill and communication between the Institute, its alumni, and its students, and by maintain-ing programs to serve their needs.
The strength of our Association comes directly from its members—You.
Your membership enables us to offer unique, in-depth coverage from campus, bring world-renowned researchers directly to your region to speak about their work,
and promote one-of-a-kind experiences that draw you back to campus. In 2013, we will be introducing new services to help you connect with other Techers personally and professionally around the globe in ever more meaningful ways.
The Association is also an important means by which Caltech hears back from its alumni. Your experiences after graduation provide invaluable insight and wisdom. You can also volunteer to become a mentor to current students and other Techer graduates, directly helping
to shape the careers and lives of a new generation of explorers, who will in turn make discoveries not yet imagined.
But we can’t do any of this without you. We invite you to keep in touch, come back to visit, host an event in your city, or become a mentor.
Your individual ingenuity, dedication and entrepreneurial spirit set you apart. Joining with fellow graduates, the Caltech Alumni Association is a network with boundless potential.
Let’s continue to discover, together.
building betteR C o n n e C T i o n S
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125events in 2012
At tended By
3886teCHers
CA A provided some funds, found alumni in
the area and got the word out. i even met a fellow graduate who worked at my own company,
just several of f ices down! —
Dan Loeb (BS ’8 6) used Play Dough to p lan a Bridge Night in Phi ladelphia
TESLA FACTORY TOURAugust 2012
A C R o S S T h e C o u n T R ythe Caltech alumni association hosts events across the united states: presentations from noted researchers, f ilm screenings, professional net work-ing, social gatherings, and more.
@ C A lT e C hCome back to campus to hear from noted researchers and get a f irst-hand glimpse at the latest discoveries, year-round. in 2012, Caltech alumni were among the f irst to see photos from Curiosit y, a few days af ter it landed on mars—before the imager y was released publicly.
With 22,000 graduates, Caltech's relatively small alumni community has an outsized influence
on science, business, and culture around the world. Membership in the Caltech Alumni
Association can help you to access the full potential of this unparalleled network. Find, friend,
hire, and learn from the best. Here are just a few of the ways to get started.
P l Ay d o u g hGot an idea for an event? we want to help!
last year, we introduced play Dough, our micro-fund kickstar ter program. any Caltech graduate can apply for reimbursement of up to $100 for organizing a small event that brings together alumni—and up to $500 for larger events.
Th e DaTa
FullA C C e S S
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P R o f e S S i o n A lAccess to a professional net work like no other.
we k no w t ha t techer s l ik e t o w or k w i t h o t her techer s. t he a lumni a s s ocia t ion pr o v ide s s e v er al t ools t o help y ou connec t pr o f e s sional l y.
p o s t a job or r é s umé on t eChe r l ink 1 1 ,000 + alumni on l ink edin in - per s on car eer coun s el ing f r om
Car eer Jour ne y s (a member bene f i t) 2 Car eer wor k s hop s o v er
r eunion week end
And Coming soon onl ine men t or s hip Connec t ion s ne w webinar s
the best people i have ever hired are techer s. And
i always wish that i could f ind more of them.
—R obert Johnson (BS ’98)
CTO, InterAna and former CTO, Facebook
l AT e S T n e W S A n d R e S e A R C hstay up-to-date on the latest news fr om Cal t ech, including r e s ear ch and dis co v er ie s and e v en t s f r om campus. t he Cal t ech a lumni a s s ocia t ion pr o v ide s:
a quar t er l y s ub s cr ip t ion t o Engineering & Science
mon t hl y e - ne w s del i v er ed t o y our inbox
s t or ie s on alumni ar ound t he w or ld
S o C i A lfind people who share your passion.
your Cal t ech ex per ience is a unique pr i v-i lege — bo t h f or t he k no w ledge acquir ed and t he t alen t ed indi v iduals gained as f r iends. w he t her you wan t t o r econnec t w i t h an old f r iend or discover ne w ones, t he Cal t ech a lumni a s socia t ion pr o v ides se veral t ools t o keep you connec t ed.
Br o w s e b y ci t y u s ing our onl ine dir ec t or y
Join our f acebook gr oup
f ol lo w u s on tw i t t er
B u i lT f o R T e C h e R S . poweRed by techeRs.
the strength of our Alumni Association comes directl y from it s member s—you. your member ship makes i t possible for us t o pr ovide compelling pr ogramming, r elat ionship-building event s, and car eer-net wor king oppor t unit ies t o alumni ar ound t he globe and in ever y walk of l i fe. But becoming a member is just t he f ir st st ep. keep in t ouch, join us at t he nex t event , or even bet t er—volunt eer t o help. toget her, we’ll cont inue t o build a bet t er a lumni a ssociat ion for all cur r ent and f ut ur e techer s.
get connected. c o n n e c t . c a l t e c h . e d u
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C a l t e c h C o n n e c tben tomlinEditor
shayna Chabner McKinney, Ann Motrunich, blaed spence, dave tytell (bs ’99)Contributing Writers
Michael Farquhar, Patsy gougeonAssociate Editors
dustin snipes, lance hayashida, bill youngbloodPhotographers
nAsA / JPlAdditional Photography
Warren group | studio deluxeDesign
C a l t e c h A l u m n i R e l a t i o n sAlexx tobeckDirector, Alumni Relations &Executive Director, Caltech Alumni Association
Patsy gougeonAssociate Director, Alumni Relations
Phil scanlonAssociate Director, Alumni Relations
ben tomlinAssociate Director, Communications
sherry WinnMembership Coordinator
A l u m n i A s s o c i a t i o n B o a r d ( 2 0 1 2 – 1 3)Executive Committee
Jim simmons (bs ‘72)President
heather dean (bs ‘00, Ms ‘00)Vice President
sam Foster (bs ‘98)Treasurer
lee Fisher (bs ‘78) Secretary
Charles halloran (bs ‘94)Past President
Directors
Michelle Armond (bs ‘00)debbie bakin (bs ‘86)Ayeh bandeh-Ahmadi (bs ‘02)Chris bryant (bs ‘95)Jasmine bryant (bs ‘95)Karina Edmonds (Ms ‘93, Phd ‘98)bobby Johnson (bs ‘98)lee Fisher (bs ‘78)Alice lin (bs ‘05, Phd ‘12)lonnie Martin (bs ‘69, Ms ‘70)Carol Mullenax (bs ‘89)Phil naecker (bs ‘76)nicola Peill-Moelter (Ms ‘93, Phd ‘97)Anneila sargent (Ms ‘67, Phd ‘77)Michelin sloneker (bs ‘95)david tytell (bs ‘99)tom Workman (bs ‘86, Ms ‘87, Phd ‘92)Richard yeh (bs ‘98)
In 1973, Caltech celebrated the first women to earn bachelor’s degrees from the Institute. Flora Wu (BS ’73 CH), Stephanie Charles (BS ’73 PH), Sharon Long (BS ’73 ISP), and Deborah Chung (MS ’73 ES) proudly walked the graduation line and… into Caltech’s history books.
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or A p p r o A CHThe Caltech Alumni Association invites you to join us on campus for the 76th annual Alumni Seminar Day and Reunion Weekend. Connect with friends and colleagues over the course of four intellectually engaging and event-filled days. Choose from nearly 80 events and activities, including thought- provoking lectures, private tours, house reunions, social events, and more. The campus once again belongs to you.
e XCH A nGeIn one of the most venerated traditions at Caltech, alumni and their guests are given a front-row seat to the new discoveries taking place on campus at Seminar Day. For 75 years, history-making breakthroughs—ranging from microscopic mysteries to the exploration of the universe—have been previewed exclusively for you.
dis p e r seCome meet people and experi-ence ideas that will ignite your imagination and send you home inspired to continue your own path of discovery.
A weekend designed for you. Only at Caltech.
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Events open to all alumni and guests unless otherwise noted.
A dmi s sion s o f f ice in f or ma t ion s e s sion and Campu s tour1 0:00 a.m . Campus Tour
1 1 : 1 5 a.m. Information SessionAdmissions Office, 3 83 S. Hi l l Ave.
Reservations required RSVP: (626) 395-6341 (please specify that you are part of the Reunion Weekend.)
Cla s s o f ’ 6 3 — r egi s t r a t ion and L unch1 1 :00 a.m. – 1 : 30 p.m.Alumni House, 345 S. Hi l l Ave.
Cla s s o f ’5 3 — r egi s t r a t ion and L unch1 1 :00 a.m. – 1 : 30 p.m.Tom Mannion’s House, 400 S. Hi l l Ave.
Hun t ing t on L ibr ar y e s t a t e tour2 :00 – 3:00 p.m. 1151 Oxford R d., San Marino
One hour private, docent-led, outdoor tour. Guests welcome to stay and explore the gardens until closing.
Meet at the Huntington; transportation not provided.
G amble Hou se tour3: 30 – 4 : 30 p.m.4 Westmoreland Place, Pasadena
Meet at the Gamble House; transportation not provided.
Cla s se s o f ’4 3, ’4 8 , ’5 3, ’5 8 , ’6 3President’s Reception6 :00 – 7 : 1 5 p.m. President ’s R esidence, 415 S. Hi l l Ave.
Hosted by President Chameau and Dr. Carol Carmichael
followed by
7 : 30 p.m. Reunion DinnersThe Athenaeum, 551 S. Hi l l Ave.
Con t inen t al Br eak f a s t8 :00 – 1 0:00 a.m.Alumni House, 345 S. Hi l l Ave.
Enjoy a sit-down continental breakfast with your classmates.
Campu s A r chi t ec t ur al tour9: 30 a.m. Tour departs from Alumni House, 345 S. Hi l l Ave.
1 0:00 a.m. I l lustrated Lecture Hameetman Auditorium, Cahi l l Center
Romy Wyllie, chair of the Caltech Architectural Tour Service will present a 45-minute illustrated lecture outlining the history of campus architec-ture and comparing its decorative motifs with examples found in world architecture.
1 0: 4 5 a.m. Walking Tour Departs from Cahi l l Center
Members of the Caltech Architectural Tour Service (CATS) will give 45-minute walking tours of the campus. CATS is a special service of the Caltech Women’s Club; all members are volun-teers who are thoroughly educated in the history of the campus architecture and are eager to show visitors some of Caltech’s hidden treasures.
A dmi s sion s o f f ice Campu s tour and in f or ma t ion s e s sion1 0:00 a.m. Campus Tour
1 1 : 1 5 a.m. Information SessionAdmissions Office, 3 83 S. Hi l l Ave.
See Thursday’s schedule for description.
Cla s s o f ’ 7 8 — r egi s t r a t ion and L unch1 1 : 30 a.m. – 1 : 30 p.m. Tom Mannion’s House, 400 S. Hi l l Ave.
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Hal f Cen t ur y Club L uncheonClass of ’63 undergraduate and graduate alumni and Half Century Club members and guests
1 2 :00 p.m. Reception
1 2 : 30 p.m. LunchThe Athenaeum, 551 S. Hi l l Ave.
The Half Century Club is an elite group consisting of Caltech undergraduate and graduate alumni who received their degrees 50 or more years ago. Members of the club are invited to join us for this year’s luncheon and induction of the class of ’63.
Cla s s o f ’6 3 — Gr oup p ho t o Immediately fol lowing luncheon on the west steps of the Athenaeum.
Cla s s o f ’5 3 —Jp L tour3:00 – 5:00 p.m.4800 Oak Grove Drive, La Cañada Fl intridge
Meet at JPL; transportation not provided
tor chbear er s ocial2 :00 – 4 : 30 p.m.The Athenaeum Rathskel ler, 551 S. Hi l l Ave.
All members of the Torchbearers of Caltech and their guests are invited to attend The Torchbearer Social at the Rathskeller. Complimentary drinks and hors d’oeuvres will be served. Come join your fellow alumni, current and emeriti faculty, and friends of the Institute for a casual afternoon of conversation and camaraderie while catching up with fellow Techers.
Car eer s eminar f or techer sBranding: Leverage Your Unique Work Trademark 4 :00 – 5:00 p.m.Beckman Institute Auditorium
Join us for the first session of our professional development series. Designed to help you develop your own career brand for use at work and in your professional life including: under-standing what a career brand is and isn’t, why it’s important to have one, and knowing your current career brand and the value you carry in the marketplace and work.
Cal t ech fund p ar t y and Cock t ai l s Everyone’s Invited!5: 30 – 7 : 30 p.m.The Athenaeum, 551 S. Hi l l Ave.
Celebrate supporting the New Generation of Techers with a fun cocktail party! You’ll hear from President Chameau and have plenty of photo ops with alums and friends. Bring a guest and share the importance of being part of this community of giving.
r eunion dinner s7 : 30 p.m.The Athenaeum, 551 S. Hi l l Ave.
› Class of ’63: 50th Reunion Dinner Alumni House, 345 S. Hi l l Ave.
› Individual Dinners for Classes of ’68, ’73, ’83, ’88
› Combined Dinner for ALL Alumni ’74 – ’81
› Combined Dinner for ALL Alumni ’89 – ’12
For the first time—this year we invite ALL Caltech graduates from 1989 through 2012 to join us for a special combined dinner. Mingle with old classmates and close friends from years close to your own. Make new friends, as well. Join us for a new Caltech tradition.
Af t er p ar t y @ tom Mannion’s Young Alumni ’89 – ’121 0:00 p.m. – 2 :00 a.m.Tom Mannion’s House, 400 S. Hi l l Ave.
Party to the wee hours with fellow young alumni and enjoy Techer-approved specialty cocktails and desserts with our Student Activities Director Tom.
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Events for Registrants of Seminar Day
Check pp. 26-34 for more details on Seminar Day and a list of abstracts.
Check- in S t ar t ing a t 8 : 1 5 a.m.Beckman Mal l (R egistration Tent)
Check in and pick up name badges and room assignments.
r ela x and e n jo y L igh t r e f r e shmen t s 8 : 1 5 – 9:00 a.m. Gates Annex
Start the day with an assortment of fresh danish, doughnuts, muffins, coffee, and juice on the south side of Parsons-Gates. Where better to meet your friends and get ready for a full day of events.
f ind your Cla s sma t e s8 : 1 5 a.m. – 5:00 p.m.Arcade Columns Gates Annex
Check to see how many of your friends are attend-ing Seminar Day: class lists are arranged according to undergraduate degree or first degree attained.
t he Beck man r oom s cience Mu seum 1 0:00 a.m. – 3:00 p.m.Beckman Institute, R oom 131
Four display areas will be on view in the Beckman Room: a timeline of the history of science; a re-cre-ation of an early chemistry lab; a blackboard area showing work being done in Beckman Institute; apparatus developed by Dr. Beckman; and the film Arnold O. Beckman: The Man Behind the Machines.
Cal t ech s ei smological L abor a t or y 1 1 :00 a.m. – 2 :00 p.m.Exhibit CenterSouth Mudd
Caltech, along with the USGS, UC Berkeley, and the California Geological Survey, is coordinating earthquake monitoring efforts under the California Integrated Seismic Network (CISN). We will display the project’s exciting new capabilities, including an Internet-based, real-time ground-shaking map called ShakeMap, amd the new High Performance Computing (HPC) Cluster, where research is taking place in seismology, planetary science, geology, environmental sciences, chemistry, and other disciplines. Get briefings at one of two stations: › North Hallway, Second-Floor › The Media Center, Room 269
Gr adua t e A er o space L abor a t or ie s (G A L Ci t ) 1 1 :00 a.m. – 2 :00 p.m.Guggenheim Tours depart from lobby.
Alumni are invited to tour the laboratories where research is performed in aerospace and related areas in GALCIT. Facilities will include the Lucas Adaptive Wall Wind Tunnel, the T5 Hypervelocity Shock Tunnel, the Space Structures Laboratory, and the Charyk Laboratory of Bioinspired Design. Displays in the Kármán Conference Room and Archives will highlight the life and achievements of Theodore von Kármán, the founding Director of GALCIT and JPL.
Black L adie s A s socia t ion o f Cal t ech (BL A C) L uncheon1 2 :00 – 2 : 30 p.m.Caltech Alumni House345 South Hi l l Ave., Pasadena, CA 91125
This event is open to all African American alumni. This is the 2nd Annual event for BLAC and is a great opportunity for alumni to create an academic and social forum to network, build partnerships, and forge professional relationships. A catered lunch will be provided with live jazz.
Contact: t: (626) 395-8108 e: lindaw@caltech.edu
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Wan t dir ec t ions? have a quest ion? l ook ing f or some t hing t o do?
S t uden t volun t eer s f r om t he Cal t ech y and t he S uRf pr ogram ar e her e t o help! l ook f or t he color f ul t-shir t s.
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Cal t ech or al Hi s t or ie s in t he Mak ing...1 2 : 30 – 2 : 30 p.m.Sherman Fairchi ld Librar y of Engineering and Appl ied Science (First Floor Desk)
Over the past 35 years, the Caltech Archives has recorded and released more than 200 oral histories capturing the memories and life stories of notable administrators and faculty. Come to the Sherman Fairchild Library during the lunch break to record your stories.
Contact: Shelley Erwin Head of Archives & Special Collections t: (626) 395-2702 e: cerwin@caltech.edu oralhistories.library.caltech.edu
A ll A lumni L unch1 2 : 30 – 2 :00 p.m.Beckman Mal l (R egistration Tent)
Pick up a tasty box lunch and grab a table, or bring your own picnic lunch and spread your blanket on the lawn.
L inde + r obin son L abor a t or y f or Global e n v ir onmen t al s cience 1 1 : 30 a.m. and 1 :00 p.m. Sixty-minute tours depart from the east patio. Wheelchair access is via the north door.
Renamed in honor of alumnus Ronald K. Linde (MS ’62, PhD ’64) and his wife, Maxine, the Linde + Robinson Laboratory for Global Environmental Science sets new standards in green design, with innovations from heating, cooling, and air-conditioning to a visionary repurposing of the historic solar telescope. Tour guests will learn about the building’s unique features and about the research at the Linde Center for Global Environmental Science.
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p age Hou se A lumni dinner5:00 p.m. Page courtyard
Fee: $25 RSVP: jjlu@caltech.edu
f leming Hou se r eunion5:00 p.m. R ecep t ion Fleming House
6 :00 p.m. d innerTom Mannion’s House, 400 S. Hi l l Ave.
Fee: $40/plate RSVP: alanmene@gmail.com
t hea t er A r t s ( tA Ci t ) r eunion!7 :00 p.m. TACIT House, 275 S. Hi l l Ave.
Please join Distinguished Alumna Sandra Tsing Loh (BS ’83) and Director of Theater Arts Brian Brophy for a Theater Arts at Caltech (TACIT) reunion. Share stories, perform a monologue or song, or just relax and enjoy the company of your friends at TACIT.
RSVP: Brian Brophy: brophy@caltech.edu Cindy De Mesa: (626) 395-3295
L lo y d Hou se Ca sino nigh t8 :00 p.m. – midnigh tLloyd House Lounge
RSVP: president@lloyd.caltech.edu
Av er y A lumni r eunion8 :00 – 1 0:00 p.m.Aver y Fireplace R oom
RSVP: jysu@caltech.edu
Car eer s eminar f or techer s
Career Management: Effectively Navigating Your Career at All Stages of Your Work Life4 :00 p.m.Beckman Institute Auditorium
The second in our professional development series. Whether you are just starting your career or are mid-career or beyond, this session will focus on important strategies such as: under-standing your transferable skills, the importance of an online and offline presence, and staying mindful of your career at all phases and stages.
w ine and Chee se r ecep t ion 4 : 4 5 – 5: 30 p.m.Gates Annex
All Seminar Day attendees are invited to a wine and cheese reception served along Gates Annex. Come and refresh yourself at the end of the day!
s Ur f r eunion4 : 4 5 – 5: 30 p.m.Glanvi l le Courtyard, Beckman Institute
Since 1979, more than 4,000 Caltech students have participated in the Summer Undergraduate Research Fellowships (SURF) program. If you were a SURFer, or are a friend of the program, please join us for our first ever reunion. Recon-nect with former classmates, chat with current SURF students, and learn about what’s new with undergraduate research at Caltech.
A ll A lumni Bar becue5:00 p.m.Beckman Mal l (R eunion Tent)
Alumni are invited to meet and talk with friends from all class years. Bring the family for ribs, chicken, vegetarian fare and all the fixings.
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Cla s s o f ’5 3 far e w ell Br eak f a s t1 0:00 – 1 1 : 30 a.m.R esidence of R olf and Guni l la Hastrup
RSVP Required
Cal t ech y A lumni Br unch 1 1 :00 – 1 :00 p.mCaltech Y Offices505 S. Wi lson, directly north of the Caltech Credit Union
This event is open to all alumni who have fond memo-ries of the Y and want to get updated on Y activities. Stop by to enjoy good food and chat with friends.
Contact: t: (626) 395-6163 e: caltechy@caltech.edu
f i f t h A nnual Chamber Mu sic Mar a t hon Concer t2 :00 – 6 :00 p.m.Dabney Lounge (free)
Small ensembles of multi-talented students will present piano duets, music for small string ensembles, wood-wind classics, and many other selections. Feel free to arrive when you can and stay as long as you like.
Blacker Hou se A s socia t e s tea2 :00 – 5:00 p.m. Blacker House Courtyard
RSVP: mole-vp@ugcs.caltech.edu
r icke t t s Hou se Beer & Br a t s2 :00 – 5:00 p.m.Mil l ikan Pond
RSVP at crosen@caltech.edu
r uddock Hou se A lumni r ecep t ion2 :00 – 5:00 p.m.Tom Mannion’s House400 S. Hi l l Ave.
RSVP: rudd-sec@ugcs.caltech.edu
dabne y Hou se p icnick ing w i t h tedd y s5:00 p.m. Dabney Courtyard
RSVP: jlei@caltech.edu
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9:00 a.m.Session I
Chemistry on the brain: understanding the nicotine Receptor
d. dougherty
brain Control with light
V. gradinaru (bs ’05)
the grand tour: Planetary Atmospheres outside the solar system
h. Knutson
under the hood of the Earthquake Machine
n. lapusta
10:00 a.m.Session II
lessons for bioinspired design: Fluid dynamics of the Embryonic heart
M. gharib (Phd ’83)
From Pulsing Planets to Exploding stars: the Exploration of the transient Radio universe
g. hallinan
Engineering the Composition and Fate of Wild insect Populations to Prevent disease
b. hay
using sunlight to turn Water and Carbon dioxide into Fuel
n. lewis (bs ’77, Ms ’77)
11:00 a.m.Session III
Distinguished Alumni Awards and General Session
12:00 p.m.
lunch
2:00 p.m.Session IV
brain Control with light
V. gradinaru (bs ’05)
Perspectives of a lancashire lad at Mr. huntington’s Mansion
J. hindle
toward Modeling the Contribution of Polar ice sheets to sea-level Rise
E. larour
using sunlight to turn Water and Carbon dioxide into Fuel
n. lewis (bs ’77, Ms ’77)
3:00 p.m.Session V
lessons for bioinspired design: Fluid dynamics of the Embryonic heart
M. gharib (Phd ’83)
Engineering the Composition and Fate of Wild insect Populations to Prevent disease
b. hay
the grand tour: Planetary Atmospheres outside the solar system
h. Knutson
under the hood of the Earthquake Machine
n. lapusta
4:00 p.m.Session VI
Chemistry on the brain: understanding the nicotine Receptor
d. dougherty
What’s going on in the libraries and Archives?
K. douglas
From Pulsing Planets to Exploding stars: the Exploration of the transient Radio universe
g. hallinan
Autism, immunity, and Mind-Altering Microbes
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9:00 a.m.Session I
Chemistry on the brain: understanding the nicotine Receptor
d. dougherty
brain Control with light
V. gradinaru (bs ’05)
the grand tour: Planetary Atmospheres outside the solar system
h. Knutson
under the hood of the Earthquake Machine
n. lapusta
10:00 a.m.Session II
lessons for bioinspired design: Fluid dynamics of the Embryonic heart
M. gharib (Phd ’83)
From Pulsing Planets to Exploding stars: the Exploration of the transient Radio universe
g. hallinan
Engineering the Composition and Fate of Wild insect Populations to Prevent disease
b. hay
using sunlight to turn Water and Carbon dioxide into Fuel
n. lewis (bs ’77, Ms ’77)
11:00 a.m.Session III
Distinguished Alumni Awards and General Session
12:00 p.m.
lunch
2:00 p.m.Session IV
brain Control with light
V. gradinaru (bs ’05)
Perspectives of a lancashire lad at Mr. huntington’s Mansion
J. hindle
toward Modeling the Contribution of Polar ice sheets to sea-level Rise
E. larour
using sunlight to turn Water and Carbon dioxide into Fuel
n. lewis (bs ’77, Ms ’77)
3:00 p.m.Session V
lessons for bioinspired design: Fluid dynamics of the Embryonic heart
M. gharib (Phd ’83)
Engineering the Composition and Fate of Wild insect Populations to Prevent disease
b. hay
the grand tour: Planetary Atmospheres outside the solar system
h. Knutson
under the hood of the Earthquake Machine
n. lapusta
4:00 p.m.Session VI
Chemistry on the brain: understanding the nicotine Receptor
d. dougherty
What’s going on in the libraries and Archives?
K. douglas
From Pulsing Planets to Exploding stars: the Exploration of the transient Radio universe
g. hallinan
Autism, immunity, and Mind-Altering Microbes
E. hsiao
10:00 a.m.the beckman Room science Museum
11:00 a.m.Caltech seismological laboratory Exhibit Center
11:00 a.m.graduate Aerospace laboratories (gAlCit)
11:30 a.m. linde + Robinson laboratory for global Environmental science
12:30 – 2:30 p.m.Caltech oral histories in the Making… Join us and contribute your recollections!!
12:00 p.m.black ladies Association of Caltech (blAC) luncheon
1:00 p.m. linde + Robinson laboratory for global Environmental science
4:00 p.m.Career Management: Effectively navigating your Career at All stages of your Work life
o t H e r A C t i v i t i e s
the science of Privacy
K. ligett
higgs Quo Vadis? the discovery and Voyage into the unknown
M. spiropulu
getting Curiosity on Mars
A. steltzner (Ms ’91)
Was the Philosopher John locke a beaver at heart? A sound Mind in a sound body, the Caltech Way!
b. Mitchell
taking Antarctica’s Pulse: Changes at the ocean-ice interface
A. thompson
What time is it? Past, Present, or Future in American literature
C. Weinstein
21st-Century Energy: solar storage in hydrogen gas
J. McKone
higgs Quo Vadis? the discovery and Voyage into the unknown
M. spiropulu
What time is it? Past, Present, or Future in American literature
C. Weinstein
the science of Privacy
K. ligett
When less Means More: Exploring sparsity, structure, and Correlation in signals
P. Pal ’14
getting Curiosity on Mars
A. steltzner (Ms ’91)
toward Modeling the Contribution of Polar ice sheets to sea-level Rise
E. larour
taking Antarctica’s Pulse: Changes at the ocean-ice interface
A. thompson
suRF lecture series
R. britto ’13A. Mouschovias ’13
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s y s t em s Med ici ne a nd p r o ac t i v e p 4 Medici ne: r e v o lu t io ni z i ng He al t h C a r e
We are at a tipping point in medicine, for the approaches of the old medicine are already beginning to be replaced by a medicine that is predictive, pre-ventive, personalized, and participatory (P4). A major component of P4 medicine is the systems approach to disease, or systems medicine—employing global and comprehensive analyses of the disease process. Systems medicine is already creating powerful new genetic approaches to identifying disease genes; it is turning blood into a window for assessing health and disease in the individual; it is determining the genome sequences of tumors to identify targets for preexisting drugs; it is stratifying a disease into its different subtypes so that a proper impedance match against effective drugs can be achieved; it is beginning to develop entirely new, more rapid, and
less expensive approaches to the creation of drugs; and it is beginning to assess wellness in individual patients. I will discuss these revolutions in medicine with specific examples. I will also talk about some of the emerging technologies that are enabling P4 medicine—powerful sequencing machines for deciphering human genomes, a systems approach to blood diagnostics, new approaches to detecting proteins and the analyses of single cells.
P4 medicine is the convergence of systems medicine, big data analytics, and patient-activated social networks. I will discuss these latter features and predict where each of the four Ps will be in 10 years. I will then discuss the impact that P4 medicine will have on society, along with our efforts to bring P4 medicine to patients.
general Session Speaker11:00 a.m. Beckman Auditorium
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President,Institute for Systems Biology
Lee Hood, M.D., Ph.D., is a pioneer in the translation of technology from R&D to industry. He has co-founded more
than 14 biotechnology companies and has more than 700 publications and 26 patents. This year Dr. Hood received
the National Medal of Science for his “unique cross-disciplinary approaches resulting in entrepreneurial ventures,
transformative commercial products, and several new scientific disciplines that have challenged and transformed
the fields of biotechnology, genomics, proteomics, personalized medicine and science education.”
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V i V i A n A gR A din A R u (B s ’0 5)Assistant Professor of Biology
Br ain Con t r ol w i t h L igh tThis is an exciting time, as it’s now becoming possible for neuronal circuits to be engineered to reverse pathological states like depression, addiction, and Parkinson’s disease, and to enhance mental performance. With the convergence of accumulating knowledge about brain circuits and technological advances in imaging and electrophysiology instrumentation, previously unimagined experiments are possible. Until recently, no available technology could cope with the tremendous variety of cell types in brain tissue. Now, optogenetics—a technology based on light-responsive proteins—can be used to probe brain circuitry, offering insight into both healthy and diseased brains. This lecture will describe the development of optogenetics and its applications and challenges.
Session I 9:00 a.m. Chair: Peter Groom
Session IV 2:00 p.m. Chair: Gary Stupian
gR e gg W. h A l l in A nAssistant Professor of Astronomy
fr om p ul sing p lane t s t o e x ploding s t ar s: t he e x plor a t ion o f t he tr an sien t r adio Uni v er seThe detection of a new or variable source in the radio sky invariably signals an explosive or dynamic event, in some cases among the highest-energy particle populations in the observ-able universe. A new generation of radio facilities are coming online that will allow this dynamic radio sky to be systematically explored for the first time. In particular, a new radio telescope will be completed in 2013 at Caltech’s own Owens Valley Radio Observatory that will image the entire viewable sky every second. I will discuss the motivation for our exploration of radio transients—explorations that range from studying aurorae on nearby extrasolar planets to detecting exotic bursts from the edge of the observable universe.
Session II 10:00 a.m. Chair: Peter Groom
Session VI 4:00 p.m. Chair: Emilio Sovero
denniS A . doughe R T yGeorge Grant Hoag Professor of Chemistry
Chemi s t r y on t he Br ain: Under s t anding t he nico t ine r ecep t orThe manner in which drugs—including pharmaceuticals and substances of abuse—interact with receptors in the brain defines a major challenge of modern science. A key issue is understanding how some drugs are able to find a specific target from a large collection of very similar receptors. The actions of nicotine present a prototype for this phenomenon, and we will describe a number of studies that lead to a new understand-ing of the unique pharmacological properties of nicotine and related substances.
Session I 9:00 a.m. Chair: Edward Bryan
Session VI 4:00 p.m. Chair: Robert Burket
moR T e z A gh A R iB (p hD ’8 3)Hans W. Liepmann Professor of Aeronautics and Professor of Bioinspired Engineering, and Vice Provost
L e s son s f or Bioin spir ed de sign: f luid d y namic s o f t he e mbr y onic Hear t Nature has shown us that some hearts do not require valves to achieve unidirectional flow. Inspired by the simple and elegant functional design of the embryonic zebrafish heart, we have succeeded in constructing a new generation of biologically inspired pumps that function on both the micro- and macros-cale without valves or blades. These advantages offer exciting new potential for use in applications where delicate transport of blood, drugs, or other biological fluids is desired.
Session II 10:00 a.m. Chair: Michael Krieger
Session V 3:00 p.m. Chair: Daniel Whelan
k imBe R ly d ougl A SUniversity Librarian
w ha t ’s Going on in t he L ibr ar ie s and A r chi v e s?Invented by researchers, the Internet and the Web are trans-forming the way we create, share, and preserve knowledge. “We tend to overestimate the effect of a technology in the short run and underestimate the effect in the long run,” as noted by the late Roy Amara, a longtime president of the Institute for the Future. Explore the new possibilities and consequences of web-based scholarly publishing, the challenges of preservation, and the many undeniable changes in research libraries today.
Session VI 4:00 p.m.
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S T e V e hindl eW. M. Keck Foundation Director of R esearch, The Huntington Librar y, Art Col lections, and Botanical Gardens
p er spec t i v e s o f a L anca shir e L ad a t Mr. Hun t ing t on’s Man sionAs the Huntington’s new director of research, and coming from industrial Lancashire via Cambridge and Warwick universities to my first foray west of the Mississippi, I was awestruck by the Library’s vast and astonishing collections. Informed by this uniquely fresh perspective, assimilating into SoCal and its aca-deme, and now with a tad of experience at the helm, I will offer a view of the Library’s opportunities, challenges, and goals, its new research and community initiatives (and minimal bureau-cracy), and its potential as an independent institution—while difficult times roil academic humanities research—to become a “library of last resort.”
Session IV 2:00 p.m. Chair: Michael Kriegern A di A l A P uS TAProfessor of Mechanical Engineering and Geophysics
Under t he Hood o f t he e ar t hquake MachineThe San Andreas and other faults in Southern California sepa-rate two tectonic plates that slowly move in opposite directions. The faults remain locked for many years and then catch up in sudden dramatic rupture events perceived as earthquakes. These occasional fast motions coexist with much slower fault slips. The talk will describe how laboratory-derived friction laws and sophisticated numerical models can be used to reproduce all stages of past fault behavior—locked, slowly moving, and earthquake-producing—in remarkable detail. Such calibrated physical models will provide new ways to assess seismic hazards and forecast seismicity response to perturbations of natural or anthropogenic origin.
Session I 9:00 a.m. Chair: Daniel Whelan
Session V 3:00 p.m. Chair: Michael Krieger
he AT he R A . k nu T S onAssistant Professor of Planetar y Science
t he Gr and tour : p lane t ar y At mo spher e s ou t side t he s olar s y s t emThe past decade has marked a period of great progress in our quest to discover and characterize the properties of the planets outside our own solar system. Observations of transiting sys-tems, in which a planet periodically passes in front of and then behind its star as seen from Earth, have given us new insight into the nature of these unusual worlds. I will discuss ongoing efforts to understand the diverse properties of exoplanet atmospheres, including their compositions, temperatures, and global weather patterns.
Session I 9:00 a.m. Chair: Michael Stefanko
Session V 3:00 p.m. Chair: Gregory Holk
BR uCe A . h AyProfessor of Biology
e ngineer ing t he Compo si t ion and fa t e o f w ild in sec t p opula t ion s t o p r e v en t di sea seInsects act as vectors for diseases of humans, animals, and plants. The globalization of human, plant, and animal move-ment compounds this problem by introducing insect vectors and their pathogens into new environments. We aim to prevent disease by converting wild populations of disease-transmitting insects into noninfectious forms, or by driving the local (but not global) insect vector population to extinction. I will discuss the genetic tricks we use to achieve these goals.
Session II 10:00 a.m. Chair: Gary Stupian
Session V 3:00 p.m. Chair: Robert Burket
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n AT h A n S . l e W iS (B s ’ 7 7, ms ’ 7 7)George L. Argyros Professor and Professor of Chemistr y
U sing s unligh t t o tur n wa t er and Car bon diox ide in t o fuelThe design of highly efficient, nonbiological, molecular-level energy conversion “machines” that generate fuels directly from sunlight, water, and carbon dioxide is both a formidable challenge and an opportunity that, if realized, could have a revolutionary impact on our energy system. In the Joint Center for Artificial Photosynthesis (JCAP), we are developing artificial photosynthetic devices that split water into hydrogen and oxy-gen and that convert carbon dioxide into carbon-based fuels.
Session II 10:00 a.m. Chair: Robert Burket
Session IV 2:00 p.m. Chair: Edward Bryan
m A R i A S P iR oP ul uProfessor of Physics
Higg s Quo vadi s? t he di sco v er y and vo yage in t o t he Unk no w nOn August 5 at 10:32 p.m. PDT, signals were received on Earth confirming the successful landing of the Mars Science Labora-tory’s Curiosity rover on the planet Mars. With this signal came the first proof of success of the ambitious new entry, descent, and landing system that had taken Curiosity to the surface. Curiosity weighs more than 900 kilograms, which required the development of a new landing system. The MSL entry, descent, and landing system is novel, applying old technologies in a new way and pioneering new technologies as well. This talk will dis-cuss the challenges of developing this novel landing system, the history of its architecture, and possible future applications.
Session I 9:00 a.m. Chair: Emilio Sovero
Session IV 2:00 p.m. Chair: Peter Groom
k AT R in A l ige T TAssistant Professor of Computer Science and Economics
t he s cience o f p r i vac yOur personal information is constantly being gathered, aggre-gated into enormous databases, and used—without our explicit permission or knowledge. Is privacy dead? What does “privacy” even mean? Can we quantify the harm you experience when your information is used, or the potential benefit from its use? This talk will explore recent work that attempts to cast and address such questions within a formal, mathematical framework.
Session I 9:00 a.m. Chair: Sean Upchurch
Session V 3:00 p.m. Chair: Robert Gershman
e R iC l A R ouRProgram Manager, Ice Sheet System Model (ISSM) Team
to war d Modeling t he Con t r ibu t ion o f p olar ice s hee t s t o s ea -L e v el r i sePolar ice sheets are progressively becoming one of the most critical components of the Earth system. Indeed, in a warming climate, the Antarctic and Greenland ice sheets are contributing larger amounts of fresh water to the oceans, which results in increasing sea-level rise. Here, we look at recent developments within the Ice Sheet System Model (ISSM) team (based at JPL, UC Irvine, and Caltech) that have resulted in improved projec-tions of sea-level rise. Our focus will be on understanding what uncertainties remain in such projections, and how to improve them using a combination of modeling and observations.
Session IV 2:00 p.m. Chair: Maribeth Mason
Session VI 4:00 p.m. Chair: Jon Hamkins
A d A m S T elT z ne R (ms ’ 9 1)Phase Lead and Development Manager, Mars Science Laborator y Entr y, Descent, and Landing Team, JPL
Ge t t ing Cur io si t y on Mar sOn August 5 at 10:32 p.m. PDT, signals were received on Earth confirming the successful landing of the Mars Science Labora-tory’s Curiosity rover on the planet Mars. With this signal came the first proof of success of the ambitious new entry, descent, and landing system that had taken Curiosity to the surface. Curiosity weighs over 900 kilograms, which required the devel-opment of a new landing system. The MSL entry, descent, and landing system is novel, applying old technologies in a new way and pioneering new technologies as well. This talk will discuss the challenges of developing this novel landing system, the history of its architecture, and possible future applications.
Session I 9:00 a.m. Chair: Jon Hamkins
Session V 3:00 p.m. Chair: Maribeth Mason
Be T Sy mi T Chel lDirector of Athletics, R ecreation and Physical Education
wa s t he p hilo sopher John L ocke a Bea v er a t Hear t ? A s ound Mind in a s ound Bod y, t he Cal t ech wa y !The important role that the physical dimension plays in the overall educational and intellectual development of our stu-dents is discussed. This will include a brief trip on the Beaver Bandwagon—the past, present, and future of Caltech athletics, physical education, and recreation. And why now more than ever students need the character development and release that physical outlets provide.
Session II 10:00 a.m.
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A nd R e W T homP S onAssistant Professor of Environmental Science and Engineering
tak ing A n t ar c t ica’s p ul se: Change s a t t he ocean -ice in t er f aceSections of the Antarctic ice sheet, containing enough ice to raise the global sea level several meters, are rapidly melting. These ice sheets are sensitive to ocean warming and changes in circulation patterns. Antarctica’s remote location and harsh cli-mate make observing these changes an extraordinary challenge. This talk will focus on the use of ocean gliders—autonomous underwater vehicles—to measure ocean variability at the Antarctic margins in unprecedented detail.
Session II 10:00 a.m. Chair: Gregory Holk
Session VI 4:00 p.m. Chair: Michael Stefanko
JA me S R . mCkone ’ 1 4Graduate Student, Chemistr y
2 1 s t- Cen t ur y e ner g y : s olar s t or age in H y dr ogen Ga sSolar energy is by far the most plentiful renewable resource, but large-scale adoption of solar technologies requires some form of energy storage. Inexpensive solar absorbers and chemical catalysts can be combined into integrated assemblies for solar energy storage in chemical bonds by splitting water into hydrogen and oxygen gas. This presentation will describe recent efforts in developing structured silicon absorbers and nickel composite catalysts for this application.
Session IV 2:00 p.m. Chair: Susan Murakami-Fisher
P i yA PA l ’ 1 4Graduate Student, Electrical Engineering
w hen L e s s Mean s Mor e: e x plor ing s par si t y, s t r uc t ur e, and Cor r ela t ion in signal sToday’s signal-processing systems face an enormous challenge storing, processing, and reliably communicating data that is be-ing generated at a faster-than-ever rate. In this talk, I will show how data sparsity and correlation can be exploited to address this issue. I will demonstrate novel structured sampling schemes and algorithms, through the use of which one can derive more information from fewer measurements chosen judiciously from the vast amount of available data.
Session V 3:00 p.m. Chair: David Zobel
el A ine hS i Ao ’ 1 3Postdoctoral Scholar, Biology and Chemistr y & Chemical Engineering
A u t i sm, immuni t y, and Mind -A l t er ing Micr obe sHumans are composed of a vast diversity of microbes that impact health and disease, and recent studies have revealed a remarkable effect of microbes on brain development and be-havior. We have found that manipulating the microbiome cor-rects abnormalities in a mouse model of autism, a devastating neurodevelopmental disorder afflicting 1 in 88 children in the United States. These results reveal a novel role of the microbiota on autism-related behavior and provide compelling evidence for a microbe-based treatment for autism-spectrum disorders.
Session VI 4:00 p.m. Chair: David Zobel
Cindy W einS T einProfessor of Engl ish and Executive Officer for the Humanities
w ha t t ime i s i t ? pa s t , p r e sen t , or fu t ur e in A mer ican L i t er a t ur eNovels are almost always told in the past tense. The stories of Ishmael, Hester Prynne, and Sister Carrie have already taken place, and their experiences are narrated retrospec-tively. But what about a novel that vacillates between past, present, and future? What might the collision of different tenses say about such a novel, its author, and the culture in which that text appeared?
Session II 10:00 a.m. Chair: Robert Gershman
Session IV 2:00 p.m. Chair: Sean Upchurch
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R e uBen J. B R i T T o ’ 1 3Senior, Chemical Engineering
r emo v ing Cu Con t amina t ion f r om s i Micr o w ir e s olar Cel l sReactive ion etching (RIE) has been used to remove the top few microns of Si microwires grown by the vapor-liquid-solid growth method, thereby removing the Cu-Si intermetallic region formed during growth and forming a flat Si surface. Compared with as-grown Si microwire arrays, photoanodes fabricated from the resulting Si microwire arrays showed an improvement in their energy-conversion efficiency from 1.1% to 2.0%.
Session VI 4:00 p.m. Chair: Susan Murakami-Fisher
A l e x A nde R mouS ChoV i A S ’ 1 3Senior, Appl ied Physics
A s ur v e y o f t he r adio - fr equenc y in t er f er ence a t t he si t e o f t he fu t ur e o w en s valle y LwAIn order to isolate the radio frequency interference (RFI) at the site of the future Long Wavelength Array station at the Owens Valley Radio Observatory, a survey was conducted of the RF spectrum up to 200 MHz. We used three custom cross-dipole antennas, whose signal was broken up into 1,024 channels by a Reconfigurable Open Architecture Computing Hardware field-programmable gate array correlator. The survey covers several weeks of observation. We have identified and localized the strongest continuous and transient sources of RFI.
Session VI 4:00 p.m. Chair: Susan Murakami-Fisher
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s eminar d a y Commi t t eeG. Edward Bryan (BS ’54)Robert C. Burket (BS ’65)Hannah Dvorak-Carbone (PhD ’99) General ChairRobert Gershman (BS ’62)Peter J. Groom (BS ’75)Jon Hamkins (BS ’90)Gregory J. Holk (MS ’91, PhD ’97)Michael M. Krieger (BS ’63)Maribeth Mason (MS ’99, PhD ’04)Susan S. Murakami-Fisher (BS ’75)Emilio A. Sovero (BS ’70, MS ’71, PhD ’77)Michael Stefanko (BS ’70)Gary W. Stupian (BS ’61)Sean A. Upchurch (BS ’96)Daniel S. Whelan (BS ’79, MS ’81, PhD ’85)David H. Zobel (BS ’84)Patsy M. Gougeon, Staff
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W e e k e n d At t i r eReunion dinners require tradi-tional evening attire. A jacket for gentlemen is recommended but not mandatory. Seminar Day is more casual; comfort-able clothing and walking shoes are recommended.
W i r e l e s s A c c e s s Enjoy free wireless Internet access throughout the weekend. alumni.caltech.edu/wireless
A c c o m m o d a t i o n sLooking for a place to stay during your visit to Caltech? There are numerous hotel options close to campus or Old Town Pasadena. For rates and guidelines, go to alumni.caltech.edu/lodging
C a l t e c h B o o k s t o r eThursday – Friday8:30 a.m. – 5:30 p.m.
Saturday11:00 a.m. – 6:00 p.m.
Alumni Association members receive a 20 percent discount on all merchandise with the ex-ception of computer products.
C o n v e n i e n c e S t o r eMonday – Friday9:30 a.m. – 1:00 a.m.
Saturday & Sunday11:00 a.m. – 10:00 p.m.
Located next to Chandler Dining Hall
R e d D o o r C a f éMonday – Friday7:45 a.m. – 6:00 p.m.
Saturday11:00 a.m. – 6:00 p.m.
Located north of the book-store. Just say, “Meet me at the Red Door!”
P a r k i n gOn Thursday and Friday, May 16 and 17, parking is available on Hill Ave. between California Blvd. and Del Mar Blvd., and on Holliston Ave. between San Pasqual St. and Del Mar Blvd. Additional parking is available in the Holliston parking structure. Enter the structure and stop at the security dispatch office located at the entrance to obtain a parking permit which must be displayed in your vehicle. Permits are not neces-sary on Saturday and Sunday, May 18 and 19.M
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STAFF & FACULTY CONSULTING CENTER
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N A m e Y e A R
T i m e e v e N T (o p e n t o a l l u n l e s s o t h e r w i s e n o t e d ) C o S T x N o . = T o T A l
10:00 a.m. Admissions Office Information Session and Campus Tour –
11:00 a.m. Class of ’53 Lunch $30
11:00 a.m. Class of ’63 Lunch $15
2:00 p.m. Huntington Tour $20
3:30 p.m. Gamble House Tour $12.50
Reunion Activities for ’43, ’48, ’53, ’58, ’63
6:00 p.m. President’s Reception –
7:30 p.m. Reunion Class Dinners Vegetarian $70
8:00 a.m. All Alumni, Continental Breakfast –
9:30 a.m. Campus Architectural Tour –
10:00 a.m. Admissions Office Campus Tour and Information Session –
11:30 a.m. Class of ’78 Lunch $30
12:00 p.m. Half Century Club Luncheon
Welcome to Class of ’63: HCC’s newest members are invited, free of charge Comp.
All current HCC Members and any Guests $30
2:00 p.m. Torchbearer Social –
3:00 p.m. Class of ’53 JPL Tour –
4:00 p.m. Career Seminar for Techers –
5:30 p.m. Caltech Fund Party and Cocktails –
Reunion Dinners
7:30 p.m. ’63 Dinner Vegetarian $70
7:30 p.m. ’68, ’73, ’78, ’83, ’88 Class Dinners Vegetarian $70
7:30 p.m. All Alumni ’74 – ’81 Combined Vegetarian $70
7:30 p.m. All Alumni ’89 – ’12 Combined Vegetarian $50
10:00 p.m. After Party @ Tom Mannion’s House ’89 – ’12 –
SUBTOTAL
A l U m N i A S S o C i A T i o N m e m B e R S H i P A N N U A l l i f e
Your journey of discovery with Caltech continues by becoming a member of the Caltech Alumni Association. Access Caltech’s exclusive network of graduates, stay up-to-date with the latest research from campus, and receive special discounts to world-class events like Seminar Day. All made possible entirely by you, our members.
M e m b e r s re ce i v e a s p e ci a l d i s co u n t t o S e m i n a r D a y.
$55 /yearly $600 one time payment
$10 / yearly class of ’08 – Present
$900 joint membership
register online at r e u n i o n .c a l t e c h .e d u
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Use th is ch e ck l ist to p l a n yo u r w e e ke n d , th e n g o o n l i n e to re g iste r by May 6th.If you do not have access to the internet, you may fill out the following information and mail to us (see reverse for instructions):
P l A n n e RaLUMNI REUNION WEEKEND aND SEMINaR Day
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T i m e R e U N i o N W e e k e N D e v e N T S C o N T ’ D C o S T x N o . = T o T A l
12:00 p.m BLAC Luncheon –
12:30 p.m. All Alumni Lunch Vegetarian $12
4:00 p.m. Career Networking Seminar –
4:45 p.m. SURF Reunion –
5:00 p.m. All Alumni Barbecue Vegetarian $27
5:00 p.m. Page House Alumni Dinner –
5:00 p.m. Fleming House Reunion –
7:00 p.m. Theater Arts (TACIT) Reunion –
8:00 p.m. Lloyd House Casino Night –
8:00 p.m. Avery House Alumni Reunion –
Additional free events offered throughout the day. Consult the schedule on pp. 24-25 for more.
10:00 a.m. Class of ’53 Breakfast –
11:00 a.m. Caltech Y Alumni Brunch –
2:00 p.m. Music Marathon Concert –
2:00 p.m. Blacker House Associates’ Tea –
2:00 p.m. Ricketts Beer & Brats –
2:00 p.m. Ruddock House Alumni Reception –
5:00 p.m. Dabney House Picnicking with Teddys –
S U B T o T A l
S U B T o T A l f R o m P A g e 1
g R A N D T o T A l
T i m e S e m i N A R D AY e v e N T S m e m B e R S N o N - m e m B e R S x N o . = T o T A l
Early Bird (must be postmarked by April 19) $80 $140
Regular (on or after April 20 – May 6) $100 $160
Students – $20
S e m i N A R D AY S e S S i o N S A N D A C T i v i T i e S . P l e A S e i N D i C A T e T H e N U m B e R A T T e N D i N g e A C H .
I 9:00 a.m. Dougherty Gradinaru Knutson Lapusta Ligett Spiropulu Steltzner
II 10:00 a.m. Gharib Hallinan Hay Lewis Mitchell Thompson Weinstein
III 11:00 a.m. General Session
IV 2:00 p.m. Gradinaru Hindle Larour Lewis McKone Spiropulu Weinstein
V 3:00 p.m. Gharib Hay Knutson Lapusta Ligett Pal Steltzner
IV 4:00 p.m. SURF Dougherty Douglas Hallinan Hsiao Larour Thompson
4:45 p.m. Wine and Cheese Reception
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mail t o:Mail postmarked by: April 19th – Earlybird May 5th – Final
Caltech Alumni AssociationMC 1-97Pasadena, CA 91125att: Reunion Weekend and Seminar Day
t. 626-395-6592 f. 626-795-8736e. reunions@alumni.caltech.edu
Register now online at r eunion.cal t ech.eduIf you do not have access to the internet, please fill out the following information.
Name Year
Alumni ID# (on back of magazine) House
No. of Guests Names
Current Address Apt #
City State ZIP
Email Phone
Method of Payment Check Credit Card
Credit Card# CVV Exp
Signature
i n m e m o R i A m2 0 1 2
T i m e R e U N i o N W e e k e N D e v e N T S C o N T ’ D C o S T x N o . = T o T A l
12:00 p.m BLAC Luncheon –
12:30 p.m. All Alumni Lunch Vegetarian $12
4:00 p.m. Career Networking Seminar –
4:45 p.m. SURF Reunion –
5:00 p.m. All Alumni Barbecue Vegetarian $27
5:00 p.m. Page House Alumni Dinner –
5:00 p.m. Fleming House Reunion –
7:00 p.m. Theater Arts (TACIT) Reunion –
8:00 p.m. Lloyd House Casino Night –
8:00 p.m. Avery House Alumni Reunion –
Additional free events offered throughout the day. Consult the schedule on pp. 24-25 for more.
10:00 a.m. Class of ’53 Breakfast –
11:00 a.m. Caltech Y Alumni Brunch –
2:00 p.m. Music Marathon Concert –
2:00 p.m. Blacker House Associates’ Tea –
2:00 p.m. Ricketts Beer & Brats –
2:00 p.m. Ruddock House Alumni Reception –
5:00 p.m. Dabney House Picnicking with Teddys –
S U B T o T A l
S U B T o T A l f R o m P A g e 1
g R A N D T o T A l
Frederick h. Allardt (bs ’35, Ms ’36, Ms ’37)glenn R. Carley (bs ’36)Arthur hemmendinger (Phd ’37)Edward t. Price, Jr. (bs ’37)sidney bertram (bs ’38)george Asakawa (bs ’39)Robert C. hagen (bs ’39)Richard K. Pond (bs ’39)l. ivan Epstein (bs ’40, Ms ’41)A. Finley France iii (bs ’40)david W. Whittlesey (bs ’40)James R. garrett (bs ’41, Ms ’52)david R. howton (bs ’42, Phd ’46)Robert R. staley (bs ’42, Ms ’43)Albert g. Wilson (Ms ’42, Phd ’47)george d. griffith (bs ’43)Jack l. Mataya (Ms ’43)Melvin l. Merritt (bs ’43, Phd ’50)John W. bell (CERt ’44, Ms ’52)grant l. benson, Jr. (bs ’44)thomas E. hudson (bs ’44 Ms ’46)Carl W. olson (bs ’44)louis s. osborne (bs ’44)Maurice Rattray, Jr. (bs ’44, Ms ’47, Phd ’51)irving s. Reed (bs ’44, Phd ’49)thomas s. schalk (CERt ’44)William A. baum (Ms ’45, Phd ’50)Raymond F. berbower (bs ’45)Raymond l. Chuan (Ms ’45, Eng ’48, Phd ’53)Richard A. Montgomery (Ms ’46, Phd ’48)Walter l. Murphy (bs ’45)John F. nichols (bs ’45)Wayne A. Roberts (bs ’45, Ms ’48) latham l. brundred, Jr. (bs ’47)William E. davis iii (Ms ’46)Robert h. grube (bs ’46)John W. gryder (bs ’46)John s. showell (bs ’46, Ms ’49)Milton A. strauss (bs ’46, Ms ’48)Egbert M. tingley, Jr. (Ms ’46)Robert C. belyea (bs ’47)William d. graziano (Ms ’47)Wendall M. haas (bs ’47)norman R. lee (bs ’47)Fred E. Rosell, Jr. (Ms ’47)george d. shipway (bs ’47Francis d. sullivan (bs ’47)
E. Arthur trabant (Phd ’47)Eugene F. Wyszpolski (Ms ’47)Fernand P. de Percin (Ms ’47)Kurt h. barnett, M.sc. (Ms ’48)J. sage burrows (bs ’48)george E. hlavka (Ms ’48, Phd ’54)harold Johnston (Phd ’48)Col. leroy C. land, usA (ret.) (Eng ’48, Ms ’48)thomas Vrebalovich (bs ’48, Ms ’49, Phd ’54)Marion A. Condie (Ms ’49)William J. houghton (bs ’49)F. beach leighton (Ms ’49, Phd ’52)hardy C. Martel (bs ’49, Phd ’56)Emmett P. Monroe (Ms ’49)Emerson W. smith (Ms ’49)Robert M. stewart, Jr. (bs ’49, Ms ’50)Marvin C. brooks (Phd ’50)donald V. Kendall (bs ’50)henry lemaire (Phd ’50)leonard s. lerman (Phd ’50)howard R. schmidt (Ms ’50)Capt. John t. shepherd, usn (ret.) (Eng ’50)Wilbur A. Wikholm (bs ’50)dean M. blanchard (bs ’51)Richard g. brewer (bs ’51)Walter V. goeddel (Ms ’51)Richard A. hoppin (Phd ’51)Eliot A. butler (bs ’52, Phd ’56)thomas W. hamilton (bs ’52)Robert h. owens (Phd ’52)Jean Robieux (Ms ’52)thomas h. Applewhite (bs ’53, Phd ’57)Charles W. Cook (Ms ’54, Phd ’57)Joseph Kraut (Phd ’54)howard E. shanks (bs ’54)bern d. Folkman (bs ’55, Ms ’56)William b. lindley (bs ’55, Ms ’58)
Peter b. lissaman (Ms ’55, Phd ’66)Allen i. ormsbee (Phd ’55)Van i. Walkley (bs ’55)david g. Cantor (bs ’56)basil gordon (Phd ’56)Robert t. herzog (bs ’56, Ms ’63, Eng ’64)Pierre C. Mahieux (bs ’56)Alan E. Farley (bs ’57)Richard o. hundley (bs ’57, Ms ’59, Phd ’63)Mark F. Meier (Phd ’57)Capt. Eugene M. Wisenbaker, usn (ret.) (Eng ’57) Richard t. Cowley (bs ’58, Ms ’59)Paul l. donoho (Phd ’58)harold K. Forsen (bs ’58, Ms ’59)Jerrold Fried (bs ’58)John F. south (bs ’60, Ms ’61)douglas W. shakel (bs ’61)lawrence J. Altman (bs ’62)neng-Ming Wang (Phd ’62)harvie Andre (Ms ’63)Ronald K. Counsell (bs ’63)lisle t. Jory (Phd ’64)lionel J. skidmore (Phd ’64)Michael J. Cosgrove (bs ’65)Paul C. Kochendorfer (bs ’65, Ms ’66)Ralph R. gajewski (bs ’66)Robert J. Allen (bs ’70)david l. glackin (bs ’74)deno P. dialynas (bs ’76)Charles l. McKnett (bs ’76)Katherine b. dickie Ms ’80)yorgos C. stylianos (bs ’81)Michael W. day (Phd ’96)Aleksandr Chechkin (bs ’07)
Names are listed by class year.Additional names can be found online at alumni.caltech.edu/in_memoriam
W e m o u rn t h e l o ss o f t h e fo l l o w i n g m e m b e rs o f o u r Ca l t e ch a l u m n i fa m i l y i n 2012
We a r e scien t is t s, in v en t or s, p r obl em solv e r s, l e a de r s, en t r e p r ene ur s, a nd e duc at or s.
a r e c a lt e ch a l umni.
Caltech Alumni AssociationMC 1-97Pasadena, CA 91125
c o n n e c t . c a l t e c h . e d u
Nonprofit OrganizationU.S. Postage
PAID Pasadena, CAPermit No. 523
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