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Dr. Sung-Won Lee
Curriculum Vitae
Department of Physics & Astronomy, Box 41051, Texas Tech University, Lubbock, TX 79409-1051
Tel: (+1) 806 834-8188, Fax: (+1) 806 742-1182, e-mail: [email protected]
EDUCATION
2000 Ph.D. Experimental High Energy Physics, University of Glasgow, Glasgow, U.K.Thesis: “Measurement of Prompt Photon Photoproduction at HERA”Thesis Advisers: Prof. P. J. Bussey and Prof. D. H. Saxon
1995 M.Sc. Experimental High Energy Physics, Kyungpook National University, Daegu, KoreaThesis: “Comparison of Scintillator Plate Calorimeter Data and Simulation using GEANT/CALOR89”Thesis Adviser: Prof. D.H. Kim
1993 B.Sc. Physics, Daegu University, Daegu, Korea
ACADEMIC AND PROFESSIONAL EXPERIENCE
2012 - Associate Professor (with tenure), Department of Physics, Texas Tech University2006 - 2012 Assistant Professor, Department of Physics, Texas Tech University2004 - 2005 CDF Operations Manager, Particle Physics Division, Fermi National Accelerator Laboratory2003 Lecturer, CTEQ/IFAE Summer School on QCD Analysis & Phenomenology2001 - 2005 Postdoctoral Research Associate, Department of Physics, Texas A&M University
HONORS AND AWARDS
2014 President’s Mid-Career Faculty Award, TTU2014 Offered a tenured professorship (strategic hire)
at the Korea Advanced Institute of Science and Technology (KAIST), Korea (declined)2013 High Energy and Particle Physics Prize (CMS Collaboration), European Physical Society2013, 2015 AKPA Service Award, Association of Korean Physicists in America2012 Chancellor’s Council Distinguished Research Award (nominee), Texas Tech University2011 Sigma Phi Sigma Faculty (named), Texas Tech University2011 Texas Tech Service Award, Texas Tech University2010, 2012 SPS Outstanding Chapter Award, American Institute of Physics2009, 2010 Marsh W. White Outreach Award, American Institute of Physics2008, 2010 SPS Outstanding Professor (Professor of the Year) Award, Texas Tech University2007 Sloan Research Fellow (nominee), Alfred P. Sloan Foundation2006 A Certificate of Merit for Academic Achievements, President of Texas Tech University2005 A Certificate of Appreciation, Northern Illinois University (for outreach program at Fermilab)1999 The First Recipient of the Bjorn Wiik Scholarship, ICSC–Worldlab/DESY1998, 1999 The British Chevening Fellowship, British Foreign & Commonwealth Office1998 - 2000 PPARC Research Fellowship, The Central Laboratory of the Research Councils, UK.
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GRANTS
2016 - U.S. Department of Energy Grant DE-SC0015592 (Co-PI)2012 - South Plains Regional Science & Engineering Fair Fund (PI)2011, 2012 URA Visiting Scholar Program (PI), University Research Association, Inc.2010 - NSF QuarkNet Grant (PI)2010 - 2011 Marsh W. White Outreach Program (PI), American Institute of Physics2008 - 2010 US CMS LPC Support Fund (PI: administered by Fermilab)2007 - 2009 TTU Research Enrichment Fund (PI)2006 - 2009 TTU HEAF Academic Affairs Fund (PI)2006 - 2016 U.S. Department of Energy Grant (Co-PI)2005 CDF Project Fund for Supporting CDF Run II Operations (PI), Fermilab2003 Travel Grant, C. N. Yang Institute for Theoretical Physics, SUNY-Stony Brook
MEMBERSHIP IN PROFESSONAL ORGANIZATIONS
• American Physical Society• US LHC Users Organization• Association of Korean Physicists in America• Korean-American Scientists and Engineers Association
RESEARCH EXPERIENCE
I have been building a strong research profile as an experimental high energy physicist both at the nationaland at the international level. The ultimate goal of my research is to discover the missing fundamental buildingblocks of our physical world and to answer some of the most profound questions on the structure of matterand the evolution of the early Universe. Currently, I am working on the Compact Muon Solenoid experiment(CMS). The CMS is one of the most premier high energy physics experiments in the world, with more than3000 physicists involved, and it makes use of the Large Hadron Collider (LHC), the highest energy particleaccelerator in the world, located at CERN (European Laboratory for Particle Physics, Geneva, Switzerland). Iplay a key role in a number of projects under CMS, as will be listed below. Prior to my appointment at TexasTech University as faculty, I participated actively in high energy physics experiments such as ZEUS experimentat DESY (Germany) and CDF experiment at Fermilab (Batavia, IL).
1. CERN/CMS Experiment; (2006 - Present)
1.1 Physics Analysis
1.1.1 New Physics Search
• CMS Exotica-Multijet physics group co-convener (2010 - 2012)– served for 3 years: responsible for the full CMS exotica program with multijet final states, including
paper and research content strategy.
– 24 PAS and 18 papers in the Exotica-Multijet group under my coordination• CMS Exotica physics group, analysis review committee (2013 - present)• Search for Dijet Resonances
(PRL 105 211801 (’10), PLB 704 123 (’11), JHEP 01 013 (’13), PRD 87 114015 (’13), PRD 91 052009(’15), PRL 116 071801 (’16), and PLB 769 520 (’17))• Search for resonances in the dijet angular ratio (PRL 105 262001 (’10), CMS-PAS-EXO-11-026 (’12))
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• Search for WW/WZ resonances (JHEP 03 162 (’17), arXiv:1705.09171; submitted to PLB (’17))• Search for dark matter and extra dimensions in monojet (arXiv:1703.01651; submitted to JHEP (’17))• Search for dark matter and extra dimensions in monophoton (PRL 108, 261803 (’12))• Search for Dirac monoples• Search for resonances in dilepton forward-backward asymmetry• Several invited plenary talks on “Searches for New Physics at Hadron Colliders”
– PLHC 2006, HCP 2010, Pheno 2011, TeV 2011, Aspen 2013, APS 2013, Mitchell 2016, etc.
1.1.2 Standard Model Higgs Search
• Search for Higgs boson in H→WW→lνjj (JHEP 10 144 (’15))• Search for a SM-like Higgs boson decaying into WW→lνjj (EPJC 73 2469 (’13))• Searches for SM Higgs via vector boson fusion channels (in progress)• Several invited talks & lectures on “Searches for Higgs boson at LHC”
1.1.3 Electroweak & QCD Measurement
• CMS Standard Model-Jet physics group co-convener (2013 - 2014)– served for 2 years: responsible for the full CMS QCD program with jet final states, including paper
and research content strategy.
– 11 PAS and 12 papers in the SMP-Jet group under my coordination• LHC Electroweak - Jet/Photon working group co-converner (2013 - 2014)• Measurement of jet cross section at 2.76 TeV and ratio to 8 TeV (EPJC 76 265 (’16), JHEP 03 156 (’17))• Measurement of Z+jets differential cross sections (JHEP 01 010 (’12), JHEP 04 022 (’17))• Measurement of Z/γ + jet angular distributions (PRD 88 (’13) 112009)• Measurements of inclusive W and Z cross sections (JHEP 01 080 (’11))• Forward-backward asymmetry of Drell-Yan pairs (PLB 718 752 (’13), EPJC 76 325 ( 16)) )• Measurement of WW+WZ cross section and limit on aTGCs (EJC 73 2283 (’13), arXiv:1703.06095;
submitted to PLB (’17))• Study of the di-jet mass spectrum in W+jets events (PRL 109 251801 (’12))• Search for anomalous couplings in semi-leptonic decays of WWγ, WZγ (PRD 90 032008 (’14))• Measurement of Zγ → ννγ cross section and limits on aTGC ZZγ & Zγγ (JHEP 10 164 (’13))• Sevarl invited plenary talk on “QCD Measurements at Hadron Colliders”
– PIC 2014, LBNL 2015, KITP 2016, etc.
1.2 Detector Performance
• Phase II CMS upgrade project: High Granularity Calorimeter R&D (2016 - present)• Phase II CMS upgrade project: Compact Forward Calorimeter R&D (2012 - 2014)
– TTU group proposed a new type of a combined, compensating and compact calorimeter (CFC) forthe Phase II upgrades. The proposal was turned down by the CMS.
• Forward hadron calorimeter (HF): installation, calibration, commissioning & maintenance• HF upgrade project: development of anti-Cherenkov PMT (NIM A 695 143 (’12))• Combined ECAL+HCAL test beams in 2006 & 2007
– Deputy run coordinator & analysis coordinator
– Barrel calorimeter response to particle beams from 2 to 350 GeV (EPJC 60 359 (’09))• in-situ calibration: absolute energy scale of the calorimeter in the forward region• CMS HCAL with cosmic ray muon at 4T: extensive data analyses (JINST 5(3) T03012 (’10))
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• Development of HCAL DQM , HCAL DQM portal, HCAL DQM searching tool, etc.• HCAL-HF data quality monitoring board member• HCAL publication internal reviewer• Invited talks on HCAL: CMS Week 2007 (plenary), IEEE 2007, LP 2007 (poster), TXAPS 2008
1.3 Physics Object
• Improving the sensitivity of CMS to jet physics by focusing on the use of HCAL• Jet energy scale for tagging jets in VBF Higgs production• Software development of jet validation package & jet monitoring (weekly validation task since 2009)• Software development of missing energy algorithm using γ+jet topology• MET performance: scale and resolution (JINST 6P09001 (’11))
1.4 Computing & Misc.
• Co-led the TTU contributions to the CMS project (as deputy group leader)• Member of the CMS Collaboration board• Member of the CMS Conference committee (2014 - present)
– promote and organize the presentations of CMS results to the scientific conferences
– 584 talks at 48 international conferences (as of June 2017) under my coordination• Establishment of Tier-3 computing and remote monitoring center at TTU (1st US-CMS T3 site)• Establishment of TTU-CMS group at FNAL-LPC• Co-ordinating several hardware, software & physics working groups in CMS experiment• Supervision of postdocs, graduate/undergraduate students, engineers and technicians• Outreach programs at TTU: NSF-QuarkNet (PI), public LHC first beam event, etc.• CMS shift crew: shift leader, HCAL remote shifter
2. Fermilab/CDF Experiment; (2001 - 2012)
2.1 Physics Analysis
• Search for 3rd generation scalar/vector LQ in the ditau+dijet channel (PRD 77 091105 (’08))• Combination of CDF and D0 limits on GMSB using γγ+E/T channel (arXiv:hep-ex/0504004 (’05))• Search for anomalous γγ+E/T production and limits on GMSB models (PRD 71 031104 (’05))• Measurement of the cross section for prompt photon production (PRL 95 022003 (’05))• Search for pair production of scalar top quarks in RPV decay modes (PRL 92 051803 (’04))• Search for gluinos and squarks using like-sign dileptons (PRL 87 251803 (’01))• Invited talk on “Searches for New Physics at Tevatron” at PLHC 2006 (plenary)• Global photon physics: “Probing QCD and Searching for New Physics”,
Invited talks at HCP 2002 (plenary), SUSY 2003, CTEQ 2003 (lecture), and TeV4LHC 2004
2.2 Hardware Project
• CDF Run II experiment operations manager (2004-2005)• ECAL timing upgrade Project: test, installation and commissioning (NIM. A 565 543 (’06))• Run IIb TDC upgrade project: full crate test with production boards• Run IIb TDC modication project: modied board checkout, calibration
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2.3 Software Project
• ObjectMon: development and maintenance of online/offline physics object monitoring system• ZooFinder: development of on-line software package for new physics searches• Validation of Level-3 physics objects• Software development of photon identification and photon data validation• Studied the features of beam-induced backgrounds at CDF with large missing energy
2.4 Misc.
• Co-ordinating several hardware, software, & physics analysis groups in CDF experimentoperations manager, EMTiming, diphoton+X, Leptoquark, SUSY-GMSB, online object monitoring• Supervision of engineers, technicians, graduate and undergraduate students• Lectures and tour guides in several outreach programs at Fermilab• CDF Run II shift crew: DAQ specialist, shift leader
3. DESY/ZEUS Experiment; (1997-2001)
• Study of the effective parton kT in the proton at HERA (PLB 511 2001)• The first measurement of inclusive photon cross sections (PLB 472 2000)• Software development of a particle identification for high pT photon and jet• Data quality monitoring of the ZEUS central tracking detector• Maintenance of the Barrel Preshower Detector (BPRES) in a role of deputy expert• BPRES: Installation and Commissioning of the readout electronics system• Software development for BPRES detector simulation package• Safety/deputy shift crew, scientific secretary (as Ph.D. student) in collaboration (2000)
4. Other Projects; (1993-1997)
• TJNAF/Hall-A Experiment: development of geometry data base & monitoring software• MC investigation of scintillator-based calorimeters (J. of KAP, Vol. 9, Number 4 (’97))• Fermilab/CDF Experiment: Run II plug calorimeter upgrade project• CERN/L3 Experiment: DSU/DVN qq data handling (visiting student at CERN)
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TEACHING EXPERIENCE
1. Courses Taught
2006 - Texas Tech University,PHYS-1403: General Physics IPHYS-1408: Principles of Physics IPHYS-2401: Principles of Physics IIPHYS-2402: Principles of Physics III (Modern Physics)PHYS-3301: Principles of Physics IV (Introduction to Quantum Physics) - Fall 2017PHYS-4304: MechanicsPHYS-5300: Teaching methods for Tutorials in Introductory PhysicsPHYS-5312: Elementary Particle Physics
2001 - Supervision of undergraduate, graduate Students, and postdocs1997 - 1998 University of Glasgow (UK), Undergraduate Physics Lab1995 - 1996 Keimyung University (Korea), General Physics I , II
2. Student & Postdoc Research Direction
Ph.D. students 2017 - Liyang Lou Taking courses & preparing Ph.D. prelim2016 - Kamal Lamichhane HCAL, BSM (research co-supervisor)2015 - Zhixing Wang. HCAL, BSM (research co-supervisor)2011 - Sonaina Undleeb HCAL, BSM (Ph.D. committee)
2013 Claudia Seitz∗ BSM (Ph.D. dissertation external committee)→ postdoc at Univ. of Zurich
2011 - 2016 Bugra Bilin∗∗ QCD (research co-supervisor)→ postdoc at Universit Libre de Bruxelles, Belgium
2011 - 2016 James Faulkner HCAL, Jet, Electroweak (Ph.D. dissertation chair)→ data scientist at ENGILITY (space division), VA
2010 - 2015 Terence Libeiro QCD, HEP computing (research co-supervisor& Ph.D. committee)→ postdoc at UC Irvine, CA
2008 - 2014 Keng Kovitanggoon Jet, SUSY, QCD (Ph.D. dissertation chair)→ postdoc at Chulalongkorn University, Thailand
2006 - 2011 Youn Roh HCAL, Electroweak (Ph.D. committee)→ small research prof. at Korea Univ., Korea
2006 - 2011 Chiyoung Jeong Jet, BSM, HEP Computing (Ph.D. dissertation chair)→ staff medical physicist at Asan Medical Center, Korea
2003 - 2005 Takashi Akimoto BSM (research co-supervisor)→ Industry, Japan
2002 - 2004 Min-Suk Kim SUSY (research co-supervisor)→ research prof. at Kyungpook Nat’al Univ., Korea
∗: Ph.D. student at Rutgers Univ.∗∗: Ph.D. student at Middle East Technical Univ. Turkey
Postdocs 2016 - Emine Gurpinar HCAL, BSM2016 - Federico De Guio HCAL, BSM
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2011 - Phil Dudero HCAL, Higgs, Electroweak2010 - Jordan Damgov HCAL, MET, Electroweak, BSM
2015 - 2016 Chang-Seong Moon∗ BSM→ assist. prof. at Kyungpook Nat’al Univ., Korea
2012 - 2015 Cosmin Dragoiu HCAL, Electroweak→ sr. engineer at Mercedes-Benz R&D North America
2011 - 2015 Chris Cowden HCAL, BSM, HEP computing→ principal data scientist at Capital One, TX
2007 - 2009 Sorina Popescu HCAL→ staff scientist at IFIN-HH Bucharest, Romania
2007 - 2011 Efe Yazgan HCAL, Electroweak→ senior postdoc at IHEP-Beijing
2006 - 2009 LIsa Berntzon HCAL→ senior engineer at Westinghouse Ltd, Sweden
∗: postdoc at Sao Paulo State Univ. & IFT, Brazil
3. Student & Postdoc Accomplishments: Scholarships, PhD, and Awards
Ph.D. students 2016 James Faulkner Ph.D.Measurement of WWγ cross section and investigation ofanomalous gauge boson couplings in semi-leptonic decaysin pp collisions at
√s = 8 TeV
[CERN-THESIS-2016-191& FERMILAB-THESIS-2016-26]
2016 James Faulkner Outstanding Ph.D. Student Award, Dept. Physics, TTU2016 James Faulkner 3rd place in the Science III category at
the annual grad. research poster competition, TTU2015 - 2016 James Faulkner TTU Doctoral Dissertation Completion Fellowship2013 - 2016 James Faulkner Fermilab LPC Guests and Visitors Award
2014 Kittikul Kovitanggoon Ph.D.Measurement of the production cross section for Z/γ∗ inin association with jets in pp collisions at
√s = 8 TeV
with the CMS detector[CERN-THESIS-2014-088 & FERMILAB-THESIS-2014-16]
2014 Kittikul Kovitanggoon Outstanding Ph.D. Student Award, Dept. Physics, TTU2010 Kittikul Kovitanggoon Fermilab LPC Guests and Visitors Award
2011 Chiyoung Jeong Ph.D.New Physics Search in Dijet Mass Spectrumwith Compact Muon SolenoidCERN-THESIS-2011-267 & FERMILAB-THESIS-2011-40]
2011 Chiyoung Jeong Outstanding Ph.D. Student Award, Dept. Physics, TTU2008 - 2011 Chiyoung Jeong Fermilab LPC Guests and Visitors Award
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Postdocs 2017 Federico de Guio CMS HCAL Detector Performances Group co-convener2016 Federico de Guio CMS HCAL DQM Group co-convener2016 Jordan Damgov 2017 CMS LPC Distinguished Researchers2015 - Jordan Dangov. Fermilab LPC JetMET & Substructures Group co-convener2014 - 2016 Jordan Damgov CMS JetMET DQM Group co-convener2014 Phil Dudero 2015 CMS LPC Distinguished Researchers2012 - 2014 Jordan Damgov. CMS HCAL Calibration Group co-convener2012 Phil Dudero 2012 URA Visiting Scholar Award2011 Jordan Damgov 2011 URA Visiting Scholar Award2009 Efe Yazgan CMS Achievement Award
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SERVICE
1. Departmental
2016 - Graduate Admissions Committee2016 - Web Committee (co-chair, co-developer)2016 - Faculty Affairs Committee2012 - 2013 Scholarship Committee2011 - Sigma Pi Sigma, Faculty Advisor2010 - 2013 Associate Undergraduate Advisor2010 - 2013 Physics Teaching Laboratories Committee2009 - 2013 Faculty Affairs Committee2009 - 2013 Undergraduate Majors Committee2009 - 2011 Ph.D. Qualifying Exam/Prelim Committee2008 - 2013 Course/research webpage developer for Dept. of Physics website2008 - 2013 Society of Physics Students, Faculty Advisor2008 - 2013 University Day, Department Representative2007 - 2009 Facilities/Infrastructure Committee2006 - HEP Group Postdoc Search Committee, Chair
2. Professional: Research
2017 - Swiss National Science Foundation Reviewer2017 Phenomenology 2017 Symposium, BSM Session Chair2017 The Physics Symposium at US-Korea Conference (UKC) 2017, HEP Session Organizer/Chair2016 UKC 2016, Pure and Applied Science Symposium, HEP Session Organizer/Chair2015 - US CMS Collaboration, US-CMS coordinator for the APS meetings2014 - CMS Conference Committee (elected)
promote and organize the presentations of CMS results to the scientific conferences584 talks at 48 international conferences (as of June 2017)
2014 - 2015 XXIII. International Workshop on Deep-Inelastic Scattering,QCD & Hadronic Final States Working Group Coordinator
2014 UKC 2014, Physics Symposium, High Energy and Nuclear Physics Session Organizer/Chair2014 Large Hadron Collider Physics Conference, QCD Session Chair2014 8th Workshop on Monte Carlo Tools for Physics Beyond the Standard Model, Organizing Committee2013 - 2014 LHC Electroweak Working Group - Jet/Photon subgroup, Co-convener2013 - 2014 CMS Standard Model Jet Physics Group, Co-convener2012 The 2012 Fall Joint Texas Sections APS, AAPT, SPS Meeting, Organizing Committee2012 XVth International Conference on Calorimetry in HEP, Co-Editor of Proceedings2011 - 2012 XVth International Conference on Calorimetry in HEP, Organizing Committee2010 - 2012 CMS Exotica Multijet Physics Group, Co-convener2010 UKC 2010, Pure and Applied Science Symposium, HEP Session Chair2009 CMS HCAL Publication Internal Reviewer2007 - 2009 CMS HCAL Data Quality Monitoring Board2007 Safety Officer in H2 beam-line at CERN2006 - 2009 CMS Combined Test Beam 2006/2007, Deputy Run Coordinator & Analysis Coordinator2004 - 2005 CDF Operations Manager2002 - 2005 Co-leader of Analysis Working Groups: SUSY Diphoton & 3rd Generation Leptoquark2001 - 2003 Leader of Online/Offline Object Monitoring Project in CDF
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3. Professional: Non-research
2016 - 2019 Korean-American Scientists and Engineers Association, Contest Committee2016 - 2017 Korean-American Scientists and Engineers Association, Technical Group A [Physics] Councilor2015 - Association of Korean Physicists in America, Award Committee2014 - 2016 Korean-American Scientists and Engineers Association, Scholarship Committee2014 AKPA - IBS Symposium on Special Topics in Physics, served as panel member2013 - 2015 Association of Korean Physicists in America, Membership Director/Secretary2009 - Association of Korean Physicists in America, Publicity & Editorial Committee Chair
4. Public
2012 - South Plains Regional Science & Engineering Fair, Member of the Board & Secretary-Treasurer2011 Flying Physics Circus at Harwell Elementary School, Lubbock, TX2009 - NSF QuarkNet, P.I. & Program Coordinator at TTU2008 - 2013 Star Party (with South Plains Astronomy Club) at Gott Observatory2008 Public LHC First Beam Event at TTU, Chair of Organizing Committee2006 - South Plains Regional Science & Engineering Fair, Chair of the APS Awards
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MEDIA CONTRIBUTIONS
2016.9 CERN Courier Vol.56, Num.8, Probing dark matter with CMS2016.2 Fermilab Today, Looking for signs: dijet resonances2016.2 CERN Courier Vol.56, Num.2, CMS bridges the gap in jet measurements2016.1 CERN Courier Vol.56, Num.1, CMS presents new 13 TeV results at end-of-year jamboree2015.1 Fermilab Today, One measurement, many implications2014 TEXAS TECH UNIVERSITY — PRESIDENTS ANNUAL REPORT 20132014.3 Texas Tech Discoveries Magazine, Texas Tech CERN Physicists Celebrate Nobel Prize2014.3 Fermilab Today, Network connections: universities compute for particle physics2013.12 The Lubbock Avalanche-Journal, Tech physics club awarded with ’outstanding’ recognition2013.12 Texas Tech Today, Texas Techs Physics Club Wins National Recognition2013.10 KAMC News, Texas Tech Physicists Share Nobel Prize Win2013.10 BioNews Texas, Texas Tech High Energy Physics Group Celebrates Announcement
of Nobel Prize in Physics2013.10 Daily Toreador, Professor talks challenges of discovering particle2013.10 Texas Tech Today, Texas Tech CERN Physicists Celebrate Nobel Prize2013.10 The Huffington Post, LHC: Other Atom Smashers May Shed Light On New Particle, Supersymmetry2013.4 NBC TV & Live Science, Atom Smashers Find SomethingNot So Charm-ing2013.4 Daily Toreador, Texas Tech researchers give God particle lecture, explain importance2013.3 Divine Abode News, Higgs is Like One Big Missing Piece to the Universal Puzzle
- The Hidden Mystery2013.3 Daily Toreador, Researchers may have discovered God particle2013.3 Texas Tech Today, Texas Tech Physicists: Higgs Boson Likely Discovered2012.7 NSF QuarkNet Newsletter, Center Spotlight: Texas Tech University2012.7 Daily Toreador, Tech researchers assist in efforts to discover Higgs boson2012.4 CERN Courier, Shedding Light on Dark Matter2011.9 CERN Courier, CMS in Search of New Physics2011.3 Texas Tech Discoveries Magazine, Researchers Continue Search for Elusive New Particle at CERN2011.3 Daily Toreador, Physics Club recognized with award2011.3 Texas Tech Today, Society Earns Two Awards from American Institute of Physics2011.1 Texas Tech Accomplishments 2010, Pushing Limits with Research2010.12 Physorg, Researchers Continue Search for Elusive New Particle at CERN2009.8 Lubbock Avalanche Journal, Hadron fix prove Big Bang2009.1 International Science Grid This Week, Tier-3 computing centers expand options for physicists2008.9 Lubbock Avalanche Journal, Tech professors play role in historic physics experiment2007.11 Texas Tech Today, The Hunt for the God Particle2007.7 FERMILAB TODAY, Lepton and Quarks: Are they related?2006.12 CERN Courier, Cracow meeting looks forward to the LHC2005.5 FERMILAB TODAY, Spirit of Collaboration2004.10 FERMILAB TODAY, New Physics with Photons at CDF?
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PUBLICATIONS AND PRESENTATIONS
I have co-authored over 1100 publications in refereed journals and 178 publications in non-refereed arti-cles (conference proceedings, physics analysis summary, analysis note, report, and newsletter) as a member ofthe ZEUS (1998-2003), CDF, (2001-2012) and CMS (2006-present) collaborations. Experimental high-energyphysicists work in large collaborations and it is therefore not clear which publications reflect the primary inter-est and contribution of each author. In an attempt to make this clearer, I list the selected publications I playedan important/significant role as primary author, contributing author, secondary (convener/reviewer) author, andco-editor. Of these, I made significant contributions to 80 peer-reviewed publications (34 papers as primaryco-author, , 15 papers as contributing author, and 31 papers as convener/reviewer) and 71 peer-reviewedpublications of them came out after my arrival at TTU. Additionally, I have co-edited one book of conferenceproceedings, Proceedings of the XVth International Conference on Calorimetry in High Energy Physics”, pub-lished by IOP Publishing Ltd. in 2012.
Role 2012 - 2017 2006 - 2011 < 2006
Primary Author 21 5 8Contributing Author 5 10 0Convener/Reviewer 25 5 1Book (Co-editor) 1 0 0
Total 52 20 9
1. Significant Publications: Primary (Co-)Author
1.1 New Physics Search
1.1.1 Search for Dijet Resonances
i In 2010, I co-led the CMS dijet analysis group and performed a search for narrow resonances in the dijet massspectrum using the first LHC data. This analysis resulted in the first CMS search publication. Multiple updatesto dijet resonance analysis were published as the integrated luminosity and center-of mass energy increased. Theresults, interpreted in both model-independent and model-specific manner, significantly extended the explored massand cross section ranges for new particles decaying into quarks and gluons. The most up-to-dated analysis using2016 data has been just accepted for publication. A dark matter (DM) model was explicitly investigated for thedijet channel for the first time in this paper. To enhance the DM sensitivity, my student, Wang, made a significantcontribution to the development of the analysis strategy under my supervision. The Run 1 searches were performedby my student, Jeong, as a part of his Ph.D. research. Wang will continue studying dijet resonances using full 2017dataset for his Ph.D.
• CMS Collaboration, Search for dijet resonances in proton-proton collisions at√s = 13 TeV and con-
straints on dark matter and other models, Phys. Lett. B 769 (2017) 520.
• CMS Collaboration, Search for narrow resonances decaying to dijets in proton-proton collisions at√s
= 13 TeV, Phys. Rev. Lett, 116 (2016) 071801.
• CMS Collaboration, Search for resonances and quantum black holes using dijet mass spectra in proton-proton collisions at
√s = 8 TeV, Phys. Rev. D 91 (2015) 052009.
• CMS Collaboration, Search for narrow resonances using the dijet mass spectrum in pp collisions at√s=
8 TeV, Phys. Rev. D 87 (2013) 114015.
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• CMS Collaboration, Search for narrow resonances and quantum black holes in inclusive and b-taggeddijet mass spectra from pp collisions at
√s= 7 TeV, JHEP 01 (2013) 013.
• CMS Collaboration, Search for Resonances in the Dijet Mass Spectrum from 7 TeV pp Collisions at CMS,Phys. Lett. B 704 (2011) 123.
• CMS Collaboration, Search for Dijet Resonances in 7 TeV pp Collisions at CMS, Phys. Rev. Lett. 105(2010) 211801.
1.1.2 Diboson Search
i Damgov (postdoc) and I conducted two exclusive searches in the semileptonic WW/WZ final states, separatelyoptimized for the mass range 0.6-1.0 TeV and above 1.0 TeV. The key challenges of this analysis are the recon-struction of the highly energetic decay products and the modeling of background. A small team (TTU, Milano,Peking), co-lead by me, played a leading role in developing analysis techniques addressing these challenges.
• CMS Collaboration, Combination of searches for heavy resonances decaying to WW, WZ, ZZ, WH, andZH boson pairs in proton-proton collisions at
√s = 8 and 13 TeV, arXiv:1705.09171, submitted to Phys.
Lett. B (2017).
• CMS Collaboration, Search for massive resonances decaying into WW, WZ or ZZ bosons in proton-protoncollisions at
√s = 13 TeV, JHEP 03 (2017) 162.
1.1.3 Mono-X search
i In Run 1, I, along with a postdoc, Damgov, performed a search for DM and LED in the mono photon channel. Thiswork provided for the first time DM detection cross section limits at the collider experiments. In Run 2, TTU team(Lee, Kunori, Moon, Gurpinar, Undleeb), co-lead by Kunori and me, performed a similar search using monojetfinal state.
• CMS Collaboration, Search for dark matter produced with an energetic jet or a hadronically decaying Wor Z boson at
√s = 13 TeV, arXiv:1703.01651, submitted to JHEP (2017).
• CMS Collaboration, Search for Dark Matter and Large Extra Dimensions in pp Collisions Yielding aPhoton and Missing Transverse Energy, Phys. Rev. Lett. 108 (2012) 261803.
1.1.4 Other searchesi While working on CDF experiment as a postdoctoral research fellow, I focused on searching for new physics with
high pT objects. I initiated a new physics program in the γγ + E/T final state in CDF. The results excluded SUSY-GMSB (Gauge Mediated Supersymmetry Breaking) model with a chargino mass less than 167 GeV/c2 (the firstCDF SUSY paper in Run II) and I , along with DØ and theory collaborators, combined the results of the Tevatronsearches for chargino and neutralino production (the first Tevatron combined results in Run II). I also worked onverifying new physics models such as MSSM (search for gluinos and squarks using like-sign dileptons eventsassociated with multijets and large E/T ), R-parity violating SUSY (searches for pair production of the lightestSUSY scalar top quarks using events with two τ ’s and two b jets), and Leptoquark (search for third generationleptoquarks in events with two τ plus dijet in the final state).
• CDF Collaboration, Search for Third Generation Vector Leptoquarks in pp Collisions at√s = 1.96 TeV,
Phys. Rev. D 77 (2008) 091105(R).
• V. Buescher, R. Culbertson, J. Conway, Y. Gershtein, J-F. Grivaz, B. Heinemann, D.H. Kim, M.S. Kim,S. Lammel, G. Landsberg, S.W. Lee, S. Mrenna, D. Toback, and S.M. Wang, Combination of CDF andD0 Limits on a Gauge Mediated SUSY Model Using Diphoton and Missing Transverse Energy Channel,arXiv:hep-ex/0504004; FERMILAB-PUB-05-052 (2005).
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• CDF Collaboration, Search for Anomalous Production of Diphoton Events with Missing Transverse En-ergy at CDF and Limits on Gauge-Mediated Supersymmetry-Breaking Models, Phys. Rev. D 71 (2005)031104.
• CDF Collaboration, Search For Pair Production of Scalar Top Quarks in R-parity Violating Decay Modesin pp Collisions at
√s = 1.8 TeV, Phys. Rev. Lett. 92 (2004) 051803.
• CDF Collaboration, Search for Gluinos and Squarks Using Like Sign Dileptons in pp Collisions at√s = 1.8 TeV, Phys. Rev. Lett. 87 (2001) 251803.
1.2 Standard Model Higgs Search
i The TTU group made a number of significant contributions to the semileptonic WW decay channel. The combined(WW+ZZ) upper limits at 95% C.L. on products of the cross section and branching fractions exclude a SM-likeHiggs boson in the range 145 < mH < 710 GeV. One of the key plots from the 2013 paper was chosen for thecover of the EPJC (June 2013 issue). Multiple updates to the H → WW analysius were performed as the dataincreased. In 2015, a combined searches for additional Higgs bosons with higher masses using the full Run 1dataset has been published in JHEP. Two postdocs, Dudero and Damgov, in collaboration with CMS Higgs group,made decisive contributions to this paper.
• CMS Collaboration, Search for a Higgs Boson in the Mass Range from 145 to 1000 GeV Decaying to aPair of W or Z Bosons, JHEP 10 (2015) 144.
• CMS Collaboration, Search for a standard-model-like Higgs boson with a mass in the range 145 to 1000GeV at the LHC, Eur. Phys. J. C 73 (2013) 2469.
1.3 Electroweak & QCD Measurement
1.3.1 Multiboson Measurement
i My team (two postdocs, Damgov and Dudero, and one Ph.D. student, Faulkner) has performed a series of dibosonand triboson measurements in the semileptonic final state with different techniques that results in constraints onaTGC and aQGC, respectively. Our aTGC limits are consistent with the SM prediction and improve upon thesensitivity of the fully leptonic results and the combined LEP experiments. The triboson analysis was the firstof it’s kind and the paper presented the first experimental limits on the dimension-eight parameter and the CP-conserving WWZγ parameters. This work comprised a part of Faulkner’s Ph.D. thesis.
• CMS Collaboration, Search for anomalous couplings in boosted WW/WZ→ lνqq production in proton-proton collisions at
√s = 8 TeV, arXiv:1703.06095, submitted to Phys. Lett. B (2017).
• CMS Collaboration, A search for WWγ and WZγ production and constraints on anomalous quarticgauge couplings in pp collisions at
√s= 8 TeV, Phys. Rev. D 90 (2014) 032008.
• CMS Collaboration, Measurement of the sum of WW and WZ production with W+dijet events in ppcollisions at
√s= 7 TeV, Eur. Phys. J. C 73 (2013) 2283.
• CMS Collaboration, Study of the Dijet Mass Spectrum in pp → W + Jets Events at√s= 7 TeV, Phys.
Rev. Lett. 109 (2012) 251801.
1.3.2 Forward-Backward Asymmetry
i This was the first CMS measurement utilizing the electrons in HF in the high pileup environment. The main resultswere published in EPJC in 2016. This measurement was worked on by postdoc Dragoiu under my guidance.
14
• CMS Collaboration, Forward-backward asymmetry of Drell-Yan lepton pairs in pp collisions at√s = 8
TeV, Eur. Phys. J. C 76 (2016) 325.
1.3.3 Z+Jet Measurementi I, in collaboration with the CMS Z+jets group, studied the kinematics of Z+jets events at 7/8 TeV and measured
the differential cross sections as a function of numerous observables. Particularly, the 8 TeV analysis was the firststudy of the multi-dimensional differential cross section in the Z+jets final state and the first CMS measurement inthis event topology to include jets found in the HF. All Z+Jets measurements have been performed by two Ph.Dstudents (Kovitanggoon and Bilin) under my supervision.
• CMS Collaboration, Measurements of the differential production cross sections for a Z boson in associ-ation with jets in pp collisions at
√s = 8 TeV, JHEP 04 (2017) 022.
• CMS Collaboration, Rapidity distributions in exclusive Z + jet and photon + jet events in pp collisionsat√s= 7 TeV, Phys. Rev. D 88 (2013) 112009.
• CMS Collaboration, Jet Production Rates in Association with W and Z Bosons in pp Collisions at√s=
7 TeV, JHEP 01 (2012) 010.
1.3.4 Jet Measurementi I, along with Libeiro (Ph.D student), measured the double differential jet cross sections, d2σ/dpT dy, at 2.76 TeV.
This measurement bridges the energy ranges studied at the Tevatron and at the LHC. This work has been performedsolely by my group. The main result was highlighted in the CERN Courier and published in EPJC in 2016. Wealso calculated the ratio of cross sections measured at 2.76 TeV and 8 TeV. This work had been integrated into theCMS Run 1 legacy paper on jet measurements which was published in JHEP in 2017. I also served as one of maineditors of both publications.
• CMS Collaboration, Measurement and QCD analysis of double-differential inclusive jet cross-sectionsin pp collisions at
√s = 8 TeV and ratios to 2.76 and 7 TeV, JHEP 1703 (2017) 156.
• CMS Collaboration, Measurement of the inclusive jet cross section in pp collisions at√s = 2.76 TeV,
Eur. Phys. J. C 76 (2016) 265.
1.3.5 Photon Measurementi I first measured the inclusive cross sections of prompt photons at HERA, which indicated that the high energy part
of the parton distribution in the photon requires deeper theoretical attention. I also studied effective transversemomentum, kT , in events with a prompt photon and the associated jet. Larger than expected values of kT wererequired to explain the data. This result led to changes in theoretical modeling of initial-state parton shower.
• ZEUS Collaboration, Study of the Effective Transverse Momentum of Partons in the Proton Using PromptPhotons in Photoproduction at HERA, Phys. Lett. B 511 (2001) 19.
• ZEUS Collaboration, Measurement of Inclusive Prompt Photon Photoproduction at HERA, Phys. Lett.B 472 (2000) 175.
1.4 Detector & Physics Object
i Apart from physics analyses, I worked on EMTiming project to add timing information into the readout of the CDFelectromagnetic calorimeters. This system is used for searches for new particles that decay to photons. I played amajor role in the R&D stages of the project and contributed to all aspects of EMTiming design, test, installationand commissioning. On CMS, I took on high profile data analyses using the combined calorimeter test beam dataand served as Analysis Coordinator. In addition, I worked on improving jet energy scale and MET correctionalgorithms using γ+jet topology.
15
• CMS Collaboration, Missing Transverse Energy Performance of the CMS Detector, J. Instrum. 6 (2011)P09001.
• CMS HCAL/ECAL Collaborations, The CMS Barrel Calorimeter Response to Particle Beams from 2 to350 GeV/c, Eur. Phys. J. C 60 (2009) 359.
• M. Goncharov, T. Kamon, V. Khotilovich, V. Krutelyov, S.W. Lee, D. Toback, P. Wagner, H. Frisch,H. Sanders, M. Cordelli, F. Happacher, S. Miscetti, and R. Wagner, The Timing System for the CDFElectromagnetic Calorimeters, Nucl. Instrum. Meth. A 565 (2006) 543.
• S.W. Lee, K.W. Jang, and D.H. Kim, Monte Carlo Investigation of Scintillator-based Calorimeters, J.Korean Applied Physics, Vol 9, Number 4 (1997).
1.5 Book
• N. Akchurin, S.W. Lee, I. Volobouev, Proceedings of the XVth International Conference on Calorimetryin High Energy Physics, Vol. 404, IOP J. Phys. Conf. Ser. (2012).
2. Significant Publications: Contributing (Co-)Author
• CMS Collaboration, Measurement of the production cross section for Zγ→ ννγ in pp collisions at 7 TeVand limits on ZZγ and Zγγ triple gauge boson couplings, JHEP 10 (2013) 164.
• CMS Collaboration, Forward-Backward Asymmetry of Drell-Yan Lepton Pairs in pp Collisions at√s= 7
TeV, Phys. Lett. B 718 (2013) 752.
• N. Akchurin, J. Damgov, S. W. Lee, E. Yazgan, Some Test Results of an Anti-Cherenkov PhotomultiplierTube, Nucl. Instrum. Meth. A 695 (2012) 143.
• CMS Collaboration, A New Boson with a Mass of 125 GeV Observed with the CMS Experiment at theLarge Hadron Collider, Science, 338(6114) (2012) 1569.
• CMS Collaboration, Observation of a New Boson at a Mass of 125 GeV with the CMS Experiment at theLHC, Phys. Lett. B 716 (2012) 30.
• CMS Collaboration, Measurements of Inclusive W and Z Cross Sections in pp Collisions at√s= 7 TeV,
JHEP 01 (2011) 080.
• CMS Collaboration, Search for Quark Compositeness with the Dijet Centrality Ratio in pp Collisions atat√s = 7 TeV, Phys. Rev. Lett. 105 (2010) 262001.
• CMS Collaboration, Performance of the CMS Hadron Calorimeter with Cosmic Ray Muons and LHCbeam Data, J. Instrum. 5 (2010) T03012.
• CMS Collaboration, Commissioning of the CMS Experiment and the Cosmic Run at Four Tesla, J. In-strum. 5 (2010) T3001.
• CMS Collaboration, The CMS experiment at the CERN LHC, J. Instrum. 3 (2008) S08004.
• CDF Collaboration, Search for Pair Production of Scalar Top Quarks Decaying to a Tau Lepton and ab-Quark in ppbar Collisions at
√s = 1.96 TeV, Phys. Rev. Lett. 101 (2008) 071802.
• CDF Collaboration, Search for Heavy, Long-Lived Neutralinos that Decay to Photons at CDF II usingPhoton Timing, Phys. Rev. D 78 (2008) 032015.
• CDF Collaboration, Searches for Heavy, Long-Lived Particles that Decay to Photons at CDF, Phys. Rev.Lett. 99 (2007) 121801.
16
• CDF Collaboration, Search for a High-Mass Diphoton State and Limits on Randall-Sundrum Gravitonsat CDF, Phys. Rev. Lett. 99 (2007) 171801.
• CDF Collaboration, Search for New Physics in Lepton + Photon + X Events with 929 pb−1 of pp Colli-sions at
√s = 1.96 TeV, Phys. Rev. D 75 (2007) 112001.
3. Significant Publications: Convener/Analysis Review Committee
3.1 New Physics Search
• CMS Collaboration, Search for R-parity violating decays of a top squark in proton-proton collisions at√s = 8 TeV, Phys. Lett. B 760 (2016) 178.
• CMS Collaboration, Search for pair-produced resonances decaying to jet pairs in proton-proton colli-sions at
√s = 8 TeV, Phys. Lett. B 747 (2015) 98.
• CMS Collaboration, Search for dark matter, extra dimensions, and unparticles in monojet events inproton-proton collisions at
√s = 8 TeV, Eur. Phys. J. C 75 (2015) 235.
• CMS Collaboration, Searches for light- and heavy-flavour three-jet resonances in pp collisions at√s =
8 TeV, Phys. Lett. B 730 (2014) 193.
• CMS Collaboration, Search for jet extinction in the inclusive jet-pT spectrum from proton-proton colli-sions at
√s = 8 TeV, Phys. Rev. D 90 (2014) 032005.
• CMS Collaboration, Search for heavy resonances in the W/Z-tagged dijet mass spectrum in pp collisionsat√s = 7 TeV, Phys. Lett. B 723 (2013) 280.
• CMS Collaboration, Search for microscopic black holes in pp collisions at√s = 7 TeV, JHEP 07 (2013)
178.
• CMS Collaboration, Search for pair-produced dijet resonances in four-jet final states in pp collisions at√s =7 TeV, Phys. Rev. Lett. 110 (2013) 141802.
• CMS Collaboration, Search for contact interactions using the inclusive jet pT spectrum in pp collisionsat√s = 7 TeV, Phys. Rev. D 87 (2013) 052017.
• CMS Collaboration, Search for exotic resonances decaying into WZ/ZZ in pp collisions at√s = 7 TeV,
JHEP 02 (2013) 036.
• CMS Collaboration, Search for three-jet resonances in pp collisions at√s = 7 TeV, Phys. Lett. B 718
(2012) 329.
• CMS Collaboration, Search for dark matter and large extra dimensions in monojet events in pp collisionsat√s = 7 TeV, JHEP 09 (2012) 094.
• CMS Collaboration, Search for quark compositeness in dijet angular distributions from pp collisions at√s = 7 TeV, JHEP 05 (2012) 055.
• CMS Collaboration, Search for microscopic black holes in pp collisions at√s = 7 TeV, JHEP 04 (2012)
061.
• CMS Collaboration, Search for Three-Jet Resonances in pp Collisions at√s = 7 TeV, Phys. Rev. Lett.
107 (2011) 101801.
• CMS Collaboration, Search for New Physics with a Monojet and Missing Transverse Energy in pp Col-lisions at
√s = 7 TeV, Phys. Rev. Lett. 107 (2011) 201804.
17
• CMS Collaboration, Measurement of Dijet Angular Distributions and Search for Quark Compositenessin pp Collisions at
√s = 7 TeV, Phys. Rev. Lett. 106 (2011) 201804.
• CMS Collaboration, Search for Microscopic Black Hole Signatures at the Large Hadron Collider, Phys.Lett. B 697 (2011) 434.
3.2 Electroweak & QCD Measurement
• CMS Collaboration, Measurement of the double-differential inclusive jet cross section in proton-protoncollisions at
√s = 13 TeV, Eur. Phys. J. C 76 (2016) 451.
• CMS Collaboration, Measurement of dijet azimuthal decorrelation in pp collisions at√s = 8 TeV, Eur.
Phys. J. C 76 (2016) 536.
• CMS Collaboration, Measurement of the inclusive 3-jet production differential cross section in proton-proton collisions at 7 TeV and determination of the strong coupling constant in the TeV range, Eur. Phys.J. C 75 (2015) 186.
• CMS Collaboration, Distributions of topological observables in inclusive three- and four-jet events in ppcollisions at
√s = 7 TeV, Eur. Phys. J. C 75 (2015) 302.
• CMS Collaboration, Constraints on parton distribution functions and extraction of the strong couplingconstant from the inclusive jet cross section in pp collisions at
√s = 7 TeV, Eur. Phys. J. C 75 (2015)
288.
• CMS Collaboration, Measurement of the ratio of inclusive jet cross sections using the anti-kT algorithmwith radius parameters R=0.5 and 0.7 in pp collisions at
√s = 7 TeV, Phys. Rev. D 90 (2014) 072006.
• CMS Collaboration, Study of hadronic event-shape variables in multijet final states in pp collisions at√s = 7 TeV, JHEP 10 (2014) 087.
• CMS Collaboration, Probing color coherence effects in pp collisions at√s=7 TeV, Eur. Phys. J. C 74
(2014) 2901.
• CMS Collaboration, Measurement of the ratio of the inclusive 3-jet cross section to the inclusive 2-jetcross section in pp collisions at
√s= 7 TeV and first determination of the strong coupling constant in the
TeV range. Eur. Phys. J. C 73 (2013) 2604.
• CMS Collaboration, Measurements of differential jet cross sections in proton-proton collisions at√s =
7 TeV with the CMS detector, Phys. Rev. D 87 (2013) 112002.
• CMS Collaboration, Studies of jet mass in dijet and W/Z+jet events, JHEP 05 (2013) 090.
• CDF Collaboration, Measurement of the Cross Section for Prompt Photon Production in pp Collisions at√s = 1.96 TeV, Phys. Rev. Lett. 95 (2005) 022003.
3.3 Detector
• CMS HCAL Collaboration, Study of Various Photomultiplier Tubes with Muon Beams and CerenkovLight Produced in Electron Showers, J. Instrum. 5 (2010) P06002.
4. Non Peer-Reviewed Publications, including Technical Reports
4.1 Conference Proceedings
• S.W. Lee, Searches for Physics Beyond the Standard Model at CMS, Proc. of the 21st Hadron ColliderPhysics Symposium (2010), arXiv:1011.1692 (2010).
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Type 2012 - 2017 2006 - 2011 < 2006
Conference Proceedings 0 2 4Physics Analysis Summary 42 9 0
Analysis Note 51 47 15Report 1 4 0
Newsletter 0 3 0
Total 94 65 19
• S.W. Lee, Non SUSY Searches for Physics Beyond the Standard Model at the Tevatron, Acta PhysicaPolonica B, Vol 38 pp 365-374 (2007).
• S.W. Lee, New Physics Searches with Photons in CDF, Proc. of the SUSY 2013 Conference, arXiv:hep-ex/0402027 (2004).
• S.W. Lee, Global Photon Summary, Proc. of the 14th Topical Conference on Hadron Collider Physics,Springer, pp. 154-160 (2003).
• S.W. Lee, Prompt photons in photoproduction at HERA,, Proc. of the 8th International Workshop onDeep Inelastic Scattering, World Scientific, pp. 372-375; hep-ex/0008011 (2001).
• S.W. Lee, Prompt photon processes in photoproduction at HERA, Nucl. Phys. Proc. Suppl., Vol. 82;hep-ex/9911051 (1999).
4.2 Physics Analysis Summary (PAS)
• CMS Collaboration, Search for new physics in final states with an energetic jet or a hadronically decayingW or Z boson using 35.9 fb−1 of data at
√s =13 TeV, CMS- PAS-EXO-16-048 (2017).
• CMS Collaboration, Searches for dijet resonances in pp collisions at√s =13 TeV using data collected
in 2016, CMS-PAS-EXO-16-056 (2017).
• CMS Collaboration, Determination of the strong coupling constant from the measurement of inclusivemultijet event cross sections in pp collisions at
√s = 8 TeV, CMS-PAS-SMP-16-008 (2017).
• CMS Collaboration, Search for anomalous couplings in the production of WW and WZ pairs decayingsemileptonically in proton-proton collisions at
√s = 8 TeV, CMS-PAS-SMP-13-008 (2016).
• CMS Collaboration, Search for low-mass pair-produced dijet resonances using jet substructure tech-niques in proton-proton collisions at a center-of-mass energy of
√s = 13 TeV, CMS-PAS-EXO-16-029
(2016).
• CMS Collaboration, Search for new resonances decaying to WW/WZ → lνqq, CMS-PAS-B2G-16-020(2016).
• CMS Collaboration, Search for dark matter in final states with an energetic jet, or a hadronically decay-ing W or Z boson using 12.9 fb−1 of data at
√s =13 TeV, PAS-EXO-16-037 (2016).
• CMS Collaboration, Searches for narrow resonances decaying to dijets in proton-proton collisions at 13TeV using 12.9 fb−1, CMS-PAS-EXO-16-032 (2016).
• CMS Collaboration, Search for diboson resonances in the semileptonic X→ ZV→ l+l− qq final state at√s = 13 TeV with CMS, CMS-PAS-B2G-16-010 (2016).
• CMS Collaboration, Combination of searches for WW, WZ, ZZ, WH, and ZH resonances at√s = 8 and
13 TeV, CMS-PAS-B2G-16-007 (2016).
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• CMS Collaboration, Search for dark matter production in association with jets, or hadronically decayingW or Z boson at
√s = 13 TeV, CMS-PAS-EXO-16-013 (2016).
• CMS Collaboration, Search for WW in semileptonic final states: low mass extension, CMS-PAS-B2G-16-004 (2016).
• CMS Collaboration, A search for electroweak-induced production of Wγ with two jets and constraintson anomalous quartic gauge couplings in pp collisions at
√s = 8 TeV, CMS-PAS-SMP-14-011 (2016).
• CMS Collaboration, Measurement of the double-differential inclusive jet cross section at√s = 13 TeV ,
CMS-PAS-SMP-15-007 (2015).
• CMS Collaboration, Search for dark matter with jets and missing transverse energy at 13 TeV, CMS-PAS-EXO-15-003 (2105).
• CMS Collaboration, Search for massive resonances decaying into pairs of boosted W and Z bosons at√s = 13 TeV , CMS-PAS-EXO-15-002 (2015).
• CMS Collaboration, Search for Narrow Resonances using the Dijet Mass Spectrum with 42 fb−1 of ppCollisions at
√s = 13 TeV , CMS-PAS-EXO-15-001 (2015).
• CMS Collaboration, Measurement of the double-differential inclusive jet cross section at√s = 8 TeV,
CMS-PAS-SMP-14-001 (2015).
• CMS Collaboration, Measurement of the inclusive jet cross section in pp collisions at√s = 2.76 TeV,
CMS-PAS-SMP-14-017 (2015).
• CMS Collaboration, Search for top squarks in R-parity violating supersymmetry with dileptons and jets,CMS-PAS-EXO-14-013 (2015).
• CMS Collaboration, Search for a Standard Model-like Higgs boson decaying into WW to lν qq in exclu-sive jet bins in pp collisions at
√s = 8 TeV, CMS-PAS-HIG-14-008 (2015).
• CMS Collaboration, Measurement of dijet azimuthal decorrelations in pp collisions at√s = 8 TeV,
CMS-PAS-SMP-14-015 (2015).
• CMS Collaboration, Measurement of the differential production cross section of Z bosons in associationwith jets in pp collisions at
√s = 8 TeV, CMS-PAS-SMP-13-007 (2014).
• CMS Collaboration, Measurement of the double differential cross section of Z bosons produced in asso-ciation with jets in pp collisions at
√s = 8 TeV, CMS-PAS-SMP-14-009 (2014).
• CMS Collaboration, Measurements of differential dijet cross section in proton-proton collisions at√s =
8 TeV with the CMS detector, CMS-PAS-SMP-14-002 (2014).
• CMS Collaboration, Study of Topological Distributions of Inclusive Three- and Four-jet Events at theLHC, CMS-PAS-QCD-11-006 (2014).
• CMS Collaboration, Hadronic event shapes in pp collisions at 7 TeV, CMS-PAS-SMP-12-022 (2014).
• CMS Collaboration, Search for the Standard Model Higgs boson in the H to WW to lνjj decay channelin pp collisions at the LHC, CMS-PAS-HIG-13-027 (2014).
• CMS Collaboration, PDF constraints and extraction of the strong coupling constant from the inclusivejet cross section at 7 TeV, CMS-PAS-SMP-12-028 (2013).
• CMS Collaboration, Measurement of the 3-jet mass cross section in pp collisions at 7 TeV and deter-mination of the strong coupling constant from 3-jet masses in the TeV range, CMS-PAS-SMP-12-027(2013).
• CMS Collaboration, Measurement of color coherence effects in pp collisions at√s = 7 TeV, CMS-PAS-
SMP-12-010 (2013).
20
• CMS Collaboration, Search for a Standard Model-like Higgs boson decaying into WW to lν qq pp colli-sions at
√s = 8 TeV, CMS-PAS-HIG-13-008 (2013).
• CMS Collaboration, Search for Heavy Resonances Decaying into bb and bg Final States in pp Collisionsat√s = 8 TeV, CMS-PAS-EXO-12-023 (2013).
• CMS Collaboration, Measurement of jet cross sections at low transverse momentum in proton-protoncollisions at 8 TeV, CMS-PAS-FSQ-12-031 (2013).
• CMS Collaboration, Measurement of the double-differential inclusive jet cross section at√s = 8 TeV
with the CMS detector, CMS-PAS-SMP-12-012 (2013).
• CMS Collaboration, Search for the Standard Model Higgs boson in the H to WW to lνjj decay channelin pp collisions at the LHC, CMS-PAS-HIG-12-046 (2012).
• CMS Collaboration, Search for the Standard Model Higgs boson in the H to WW to lνjj decay channel,CMS-PAS-HIG-12-021 (2012).
• CMS Collaboration, Search for the Standard Model Higgs boson in the H to WW to lνjj decay channel,CMS-PAS-HIG-12-003 (2012).
• CMS Collaboration, Search for Multijet Resonances in the 8-jet Final State, CMS-PAS-EXO-11-075(2012).
• CMS Collaboration, Search for Jet Extinction in the Inclusive Jet pT spectrum at√s = 7 TeV, CMS-
PAS-EXO-11-068 (2012).
• CMS Collaboration, Search for Resonances with the Dijet Angular Ratio, CMS-PAS-EXO-11-026(2012).
• CMS Collaboration, Search for b-jet Resonances in pp Collisions at√s= 7 TeV, CMS-PAS-EXO-11-008
(2012).
• CMS Collaboration, Search for Extra Dimensions using the Monophoton Final State, CMS-PAS-EXO-11-058 (2011).
• CMS Collaboration, Search for Dijet Resonances in the Dijet Mass Spectrum in√s = 7 TeV pp Collisions
at CMS, CMS-PAS-EXO-11-015 (2011).
• CMS Collaboration, Rates of Jets Produced in Association with W and Z Bosons at√s = 7 TeV, CMS-
PAS-EWK-10-012 (2010).
• CMS Collaboration, Measurement of Forward-Backward Asymmetry of Lepton Pairs and the Weak-mixing Angle at CMS, CMS-PAS-EWK-10-011 (2010).
• CMS Collaboration, Missing Transverse Energy Performance of the CMS Detector, CMS-PAS-JME-10-009 (2010).
• CMS Collaboration, CMS MET Performance in Events Containing Electroweak Bosons from pp Colli-sions at
√s = 7 TeV, CMS-PAS-JME-10-005 (2010).
• CMS Collaboration, Missing Transverse Energy Performance in Minimum-Bias and Jet Events fromProton-Proton Collisions at
√s = 7 TeV, CMS-PAS-JME-10-004 (2010).
• CMS Collaboration, Measurements of Inclusive W and Z Cross Sections in pp Collisions at√s = 7 TeV,
CMS-PAS-EWK-10-002 (2010).
• CMS Collaboration, Search for Dijet Resonances in the Dijet Mass Distribution in pp Collisions at√s
= 7 TeV, CMS-PAS-EXO-10-001/QCD-10-017 (2010).
4.3 Analysis Notes
21
• M. Diamantopoulou et al., Searches for dijet resonances in pp collisions at√s = 13 TeV using up to 36
fb−1, CMS-AN-2017-013 (2017).
• B. Clerbaux, et al., Search for dark matter produced with an energetic jet, or a hadronically decaying Wor Z boson, at
√s = 13 TeV with the full 2016 dataset, CMS-AN-2016-473 (2016).
• Y. Guler, E. Gurpinar, S. Kunori, S.W. Lee, Search for ADD Extra-dimensions with Monojet Final Statein 12.9 fb−1 of pp collisions at
√s = 13 TeV, CMS-AN-2016-390 (2016).
• Z. Wang, R. Harris, S.W. Lee, S. Kunori, T. Du Pree, P. Harris, Search for Dark Matter in Dijet FinalState with 2016 Data, CMS-AN-2016-353 (2016).
• K. Lamichhane, S. Kunori, S.W. Lee, S. Novaes, T. Tomei, S. Ahuja, Search for a heavy resonancedecaying into WZ/ZZ final state in proton-proton collisions at 13 TeV with 2016 data, CMS-AN-2016-349 (2016).
• Abuja et al., Search for new WV diboson resonances in semileptonic final states at√s = 13 TeV, CMS-
AN-2016-223 (2016).
• Saoulidou et al., Search for dijet resonances at high mass using data collected at 13 TeV in 2016, CMS-AN-2016-238 (2016).
• Abuja et al., Search for new VZ resonances in semileptonic final states at√s = 13 TeV update with 2015
7.6.X rereco data, CMS-AN-2016-068 (2016).
• Saoulidou et al., Search for narrow resonances decaying to dijets in pp collisions at√s = 13 TeV using
12.9 fb−1, CMS-AN-2016-202 (2016).
• Clerbaux et al., Search for New Physics in the Monojet and Mono-V Final State, CMS-AN-2016-195(2016).
• Akchurin et al., Search for dijet resonances using Calo scouting at√s = 13 TeV using data collected in
2015, CMS-AN-2016-156 (2016).
• Du Pree et al., Combined Dark Matter interpretation of Exotica MET+X Searches, CMS-AN-2016-144(2016).
• Akchurin et al., Search for dijet resonances from data scouting at√s = 13 TeV using 1.9 fb−1 collected
in 2015, CMS-AN-2016-145 (2016).
• Akchurin et al., Search for New Physics With Jets and Missing Transverse Energy, CMS-AN-2016-062(2016).
• Abuja et al., Combination of di-boson resonance searches at 8 and 13 TeV, CMS-AN-2016-042 (2016).
• Faulkner et al., A Search for WWγ and WZγ production and Anomalous Quartic Gauge Couplings in ppCollisions at
√s = 13 TeV, CMS-AN-2015-276 (2015).
• Abuja et al., Common note on searches for new diboson resonances in semileptonic and hadronic finalstates at
√s = 13 TeV, CMS-AN-2015-196 (2015).
• Abuja et al., Search for new VW resonances in semileptonic final states at√s = 13 TeV, CMS-AN-2015-
197 (2015).
• Abuja et al., Search for new VZ resonances in semileptonic final states at 13 TeV. CMS-AN-2015-200(2015).
• Saoulidou et al., Search for narrow resonances using the dijet mass spectrum with 2.45 fb−1 of proton-proton collisions at
√s = 13 TeV, CMS-AN-2015-175 (2015).
• Akchurin et al., Search for New Physics in the Monojet Final State, CMS-AN-2015-072 (2015).
22
• Saoulidou et al., Search for narrow resonances using the dijet mass spectrum in proton-proton collisionsat√s = 13 TeV (Phys14 MC analysis), CMS-AN-2015-063 (2015).
• Abuja et al., Search for new diboson resonances in semileptonic and hadronic final states at√s = 13
TeV, CMS-AN-2015-037 (2015).
• Abuja et al., Search for new diboson resonances in semileptonic and hadronic final states at√s = 13
TeV, CMS-AN-2015-137 (2015).
• C. Cowden, S. Wilbur, N. Akchurin, S.W. Lee, M. Mulhearn, and S. Worm, Search for Dirac MagneticMonopoles in pp Collisions at
√s = 8 TeV, CMS-AN-2013-402 (2014).
• T. Libeiro, I. Volobouev, S. W. Lee, K. Rabbertz, S. Ganguly, M. Voutilainen, and M. Gouzevitch, Mea-surement of Inclusive Jet Cross Section at
√s = 2.76 TeV at CMS, CMS-AN-2014-160 (2014).
• Alves et al., Semi-leptonic decay of HWW at high mass in exclusive jet bins, CMS-AN-2013-414 (2014).
• Chou et al., Search for dijet resonances at√s = 8 TeV with data scouting, CMS-AN-2014-104 (2014).
• B. Bilin, K. Kovitanggoon, E. Yazgan, T. Seva, A. Leonard, P. Gras, S.W. Lee, M. Zeyrek, and Bilin,Study of double and triple differential cross sections of Z + jets in pp collisions at
√s = 8 TeV, CMS-
AN-2014-115 (2014).
• C. Dragoiu, N. Akchurin, and S.W. Lee, Measurement of the Forward-Backward Asymmetry of ElectronPairs in pp Collisions at
√s = 8 TeV, CMS-AN-2014-050 (2014).
• B. Bilin, M. T. Zeyrek, K. Kovitanggoon, S.W. Lee, E. Yazgan, and P. Gras, Study of differential crosssection of jets associated to Z boson in pp collisions at
√s = 8 TeV, CMS-AN-2013-224 (2013).
• N. Akchurin et al., Search for Exotic resonances decaying to WW in the semi-leptonic channel, CMS-AN-2013-139 (2013).
• N. Akchurin et al., Measurement of electroweak production cross section of a W boson with two jets inpp collisions at 8 TeV, CMS-AN-2013-123 (2013).
• N. Akchurin et al., Measurement of WW+2-jet production at 8 TeV and investigation of events with vectorboson fusion topology, CMS-AN-2012-466 (2012).
• N. Akchurin et al., Measurement of WW+WZ cross section and investigation of anomalous gauge bosoncouplings in semi-leptonic decays in pp collisions at 8 TeV, CMS-AN-2012-464 (2012).
• N. Akchurin et al., Measurement of WWγ+WZγ cross section and investigation of anomalous gaugeboson couplings in semi-leptonic decays in pp collisions at 8 TeV, CMS-AN-2012-479 (2012).
• N. Akchurin et al., Search for a Higgs Boson in qqH → W(lν)+W(jj)+2tag jets at√s = 8 TeV, CMS-
AN-2012-465 (2012).
• N. Akchurin et al., Search for an SM-like Higgs boson in the H → W → lνjj decay with the full 2012data, CMS-AN-2012-463 (2012).
• Chou et al., Search for narrow resonances using the dijet mass spectrum in pp collisions at 8 TeV withfull 2012 dataset, CMS-AN-2012-455 (2012).
• N. Akchurin et al., Search for the Standard Model Higgs boson in the H→ W→ lνjj decay with 2012HCP data, CMS-AN-2012-368 (2012).
• N. Akchurin et al., Measurement of WW+WZ cross section in semi-leptonic decays in pp collisions at 7TeV, CMS-AN-2012-224 (2012).
• Chou et al., Search for narrow resonances using the dijet mass spectrum in pp collisions at 8 TeV, CMS-AN-2012-229 (2012).
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• N. Akchurin et al., Search for the Standard Model Higgs boson in the H→ W→ lνjj decay with 2012data, CMS-AN-2012-193 (2012).
• N. Akchurin et al., Search for a Higgs Boson in qqH→ W(lν) + W(jj) + 2 tag jets, CMS-AN-2012-139(2012).
• N. Akchurin et al., Limits on the anomalous ZZγ and Zγγ couplings at 7 TeV where Z decays invisibly,CMS-AN-2012-093 (2012).
• L. Lebolo, S. Linn, K. Kovitanggoon, S.W. Lee, and N. Akchurin, Angular distribution of Z bosons inZ+Jet events using 2011 data, CMS-AN-2012-037 (2012).
• N. Akchurin et al., Computation of offline & trigger efficiencies for Standard Model Higgs boson searchin H→ W→ lνjj decay, CMS-AN-2012-021 (2012).
• N. Akchurin et al., Multi-variate optimization and background estimation for the Standard Model Higgsboson search in H→ W→ lνjj decay, CMS-AN- 2012-008 (2012).
• A. Askew et al., Search for direct dark-matter pair-production in the monophoton channel at CMS,CMS-AN-2012-053 (2012).
• Chou et al., Search for narrow resonances using the dijet mass spectrum in pp collisions at 7 TeV, CMS-AN-2012-012 (2012).
• N. Akchurin et al., Search for the Standard Model Higgs Boson in H→W→ lνjj decay, CMS-AN-2012-024 (2012).
• A. Harel, R. Harris, J. Hirschauer, C. Jeong, S.W. Lee, J. St. John, T. Yetkin, J. Wetzel, and M. Zielinski,Update on Search for New Physics with the Dijet Centrality Ratio, CMS-AN-2011-369 (2011).
• E. Yazgan et al., Measurement of the Forward-Backward Asymmetry of l+l− Pairs in CMS at 7 TeV,CMS-AN-2011-356 (2011).
• A. Askew et al., Search for ADD Extra-dimensions with Photon+MET Signature, CMS-AN-2011-319(2011).
• R. Demina, A. Harel, R. Harris, J. Hirschauer, K. Kousouris, C. Jeong, S.W. Lee, J. St. John, T. Yetkin,and M. Zielinski, Update on Search for New Physics with the Dijet Centrality Ratio, CMS-AN-2011-308(2011).
• N., Akchurin et al., Study of the dijet invariant mass distribution in W (→ lν) + jets events in pp collisionsat 7 TeV, CMS-AN-2011-266 (2011).
• C. Bernet, J.P. Chou, M. Gouzevitch, R. Harris, C. Jeong, K. Kousouris, S.W. Lee, E. Meschi, M. Pierini,and W. Reece, Search for Heavy Particles Decaying to Hadronic Final States with FatJet Reconstruction,CMS-AN-2011-242 (2011).
• C. Bernet, J.P. Chou, M. Gouzevitch, R. Harris, C. Jeong, K. Kousouris, S.W. Lee, E. Meschi, M. Pierini,and Will Reece, Search for Dijet Resonances in the Dijet Mass Spectrum in pp Collisions at 7 TeV,CMS-AN-2011-203 (2011).
• A. Askew, Y. Maravin, S. Shrestha, I. Svintradze, S. Bhattacharya, B. Gomber, Sa. Jain, N. Akchurin,J. Damgov, S.W. Lee, S. Chauhan, C. Kopecky, T. Miceli, and M. Tripathi, Zγ at 7 TeV where Z DecaysInvisibly, CMS-AN-2011-108 (2011).
• N., Akchurin et al., Measurement of WW+WZ cross section in semi-leptonic decays in pp collisions at√s = 7 TeV, CMS-AN-2011-151 (2011).
• N., Akchurin et al., Search for a Standard Model Higgs boson produced via vector boson fusion, in thedecay channel H→ WW→ lνjj, CMS-AN-2011-110 (2011).
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• N. Akchurin, J. Damgov, S.W. Lee, and E. Yazgan, Estimation of the systematic uncertainties in jet ratesfor V+jets, related to the uncertainties in jet and MET scale and resolution for pp at 7 TeV, CMS-AN-2011-046 (2011).
• E. Yazgan et al., Measurement of the Forward-Backward Asymmetry in Z→ e+e− Events in CMS at 7TeV, CMS-AN-2011-025 (2011).
• N. Akchurin et al., Measurement of the Forward-Backward Asymmetry in Z→ µ+µ− Events in CMS at7 TeV, CMS-AN-2010-455 (2010).
• N. Akchurin, J. Damgov, S.W. Lee, and E. Yazgan, Missing Transverse Energy Performance in Photon+XEvents for pp Collisions at 7 TeV, CMS-AN-2010-432 (2010).
• N. Akchurin et al., Measurement of the Associated Production of Vector Bosons and Jets in proton-protoncollisions at 7 TeV, CMS-AN-2010-413 (2010).
• G. Majumder et al., Measurement of the Forward-Backward Asymmetry in Z→ µ+µ− Events in CMS at√s = 7 TeV, CMS-AN-2010-335 (2010).
• F. Chlebana et al., Commissioning and Performance of the CMS Hadronic Calorimeters in Proton Colli-sions at 7 TeV at the Large Hadron Collider, CMS-AN-2010-183 (2010).
• G. Majumder et al., Measurement of the Forward-Backward Asymmetry in Z→ µ+µ− Events in CMS at7 TeV, CMS-AN-2010-161 (2010).
• N. Akchurin et al., Study of Production of Vector Bosons and Jets at 7 TeV for ICHEP2010 Conference,CMS-AN-2010-136 (2010).
• N. Akchurin, J. Damgov, S.W. Lee, and E. Yazgan, MET Scale Validation with Photon+Jet Events, CMS-AN-2010-132 (2010).
• C. Autermann et al., Type-I and Type-II CaloMET Performances in 7 TeV Data, CMS-AN-2010-131(2010).
• N. Adam et al., Measurements of Inclusive W and Z Cross Sections in pp Collisions at 7 TeV, CMS-AN-2010-116 (2010).
• J.P. Chou et al., Search for Dijet Resonances in the Dijet Mass Distribution in pp Collision at 7 TeV,CMS-AN-2010-108 (2010).
• J. John et al., Studies of Jet Identification in 2009 Minimum Bias Collision Data, CMS-AN-2010-030(2010).
• R. Harris et al., Event Displays of Dijet Events with Highest pT in pp Collisions at 900 GeV, CMS-AN-2010-016 (2010).
• J. Weng et al., etMET Data Quality Monitoring and Prompt Analysis of Jets in the First Collision dataat CMS, CMS-AN-2010-007 (2010).
• S. Chatrchyan et al., Study of Various Photomultiplier Tubes with Muon Beams A Cerenkov Light Pro-duced in Electron Showers, CMS-AN-2010-003 (2010).
• Y. Mao et al., Mass Reconstruction Methods for qqH, H→ ττ → Leptonic Decay, CMS-AN-2009-187(2009).
• D. Green et al., Study of Vector Boson Fusion Higgs, H → ZZ → llνν in CMS at 10 TeV, CMS-AN-2009-184 (2009).
• D. Green et al., Search for a SM Higgs Boson in the qqH, H→ WW→ llνν (l = eµ) Channel with theCMS Experiment at 10 TeV, CMS-AN-2009-181 (2009).
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• N. Akchurin et al., Higgs Study via Vector Boson Fusion in the qqH, H→ ZZ→ lljj Channel at 10 TeV,CMS-AN-2009-175 (2009).
• C. Jeong et al., Dijet Resonance Shapes for 10 TeV, CMS-AN-2009-145 (2009).
• N. Akchurin et al., Anti-Cherenkov Photomultiplier, CMS-IN-2009-028 (2009).
• S. Ozturk et al., Plans to Search for New Particles Decaying to Dijets in pp Collisions at 10 TeV, CMS-AN-2009-070 (2009).
• D. Green et al., Search for a SM Higgs Boson in the qqH, H → WW → µνµν Channel with the CMSExperiment, CMS-AN-2009-029 (2009).
• Y. Mao et al., Study of the Decay H→ ZZ→ l+l−νν for Intermediate and Heavy Higgs Boson Producedvia Weak Boson Fusion, CMS-AN-2009-028 (2009).
• N. Akchurin et al., Study of High Mass Higgs via Vector Boson Fusion in the H→ ZZ→ lljj Channel,CMS-AN-2009-027 (2009).
• Y. Mao et al., Search for an intermediate mass SM Higgs boson at CMS using Vector Boson Fusion H→ZZ→ 2µ2ν, CMS-AN-2009-006 (2009).
• Y. Mao et al., Mass Reconstruction Methods for qqH, H→ ττ → Leptonic Decay, CMS-AN-2008-087(2008).
• Y. Mao et al., Study of QCD Background and Lepton Isolation Strategy for qqH, H→W+W−→ e+− νjj with Lepton + Multijet + Missing ET Final States, CMS-AN-2008-066 (2008).
• Y. Mao et al., Prospect of Higgs Boson Search in the qqH, H→ W+W− → lν jj Channel with the CMSExperiment, CMS-AN-2008-052 (2008).
• S. Abdullin et al., The CMS Barrel Calorimeter Response to Particle Beams from 2 to 350 GeV/c, CMS-NOTE-2008-034 (2008).
• S. Abdullin et al., Design, Performance, and Calibration of the CMS Hadron-Outer Calorimeter, CMS-NOTE-2008-020 (2008).
• N. Akchurin et al., Local ECAL Calibration for the 2006 EB+HB Combined Test Beam, CMS-IN-2007-040 (2007).
• N. Akchurin et al., The Response of CMS Combined Calorimeters to Single Hadrons, Electrons andMuons, CMS-NOTE-2007-012 (2007).
• T. Akimoto et al., Search for Third Generation Vector Leptoquarks in Run II, CDF-NOTE-8309 (2006).
• T. Akimoto et al., Search for Third Generation Vector Leptoquarks in Run II, CDF-NOTE-8154 (2006).
• M. Goncharov et al., The Timing System for the CDF Electromagnetic Calorimeters, CDF-NOTE-7918(2005).
• M. Goncharov et al., Performance of the EMTiming System as Seen by the ObjectMon Online MonitoringSystem, CDF-NOTE-7515 (2005).
• R. Culbertson et al., Search for Anomalous Production of Diphoton+Missing Transverse Energy Eventsin ppbar collision, CDF-NOTE-7162 (2004).
• M.S. Kim et al., Search for Anomalous Diphoton+MET Production and Limits on GMSB Models, CDF-AN-NOTE-6389 (2003).
• M.S. Kim et al., Study of Monte Carlo Efficiency in GMSB Diphoton, CDF-NOTE-6317 (2003).
• J. Conway et al., Summary of numbers, figures and tables for the Search for Pair-Production of ScalarTop Quarks, CDF-NOTE-6316 (2003).
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• R. Culbertson et al., Run II Exotics Diphoton Sample (100 pb−1), CDF-NOTE-6310 (2003).
• M. Albrow et al., Missing ET and Beam related backgrounds at CDF, CDF-NOTE-5926 (2002).
• M. Hennecke et al., How the ObjectMon GoodRun Decision is Made, CDF-NOTE-5867 (2002).
• M.J. Kim et al., Combined Limits from Searches for R-parity Violating Scalar Top Quark Decays in theeτ jj and µτ jj Channels, CDF-NOTE-5601 (2001).
• T. Kamon et al., ObjectMon - Specifications for an Online and Offline Monitoring Software Package oMonitor Readout, Level 3 and Production, CDF-NOTE-5579 (2001).
• S.W. Lee and P.J. Bussey, Study of Effective Transverse Momentum of Parton in the Proto in using PromptPhotons in Photoproduction at HERA, ZEUS-NOTE-01-009 (2001).
• D. Toback et al., Proposal to Add Timing Information Into the Readout of the Central and Plug Electro-magnetic Calorimeters, CDF-NOTE-5518 (2000).
• S.W. Lee and P.J. Bussey, Study of Parton Intrinsic Transverse Momentum in the Proton using PromptPhoton Photoproduction at HERA, ZEUS-NOTE-00-026 (2000).
• S.W. Lee, K. Umemori, and P.J. Bussey, Measurement of Inclusive Prompt Photon Photoproduction atHERA, ZEUS-NOTE-99-046 (1999)
4.4 Report
• Abercrombie et al., Dark Matter Benchmark Models for Early LHC Run-2 Searches: Report of theATLAS/CMS Dark Matter Forum, arXiv:1507.00966 (2015).
• Fourth Detector Collaboration, Letter of Intent from the 4th Detector Collaboration at the InternationalLinear Collider, http://www.4thconcept.org/4LoI.pdf (2009).
• J. Nash et al., CMS Expression of Interest in the SLHC, CERN-LHCC-2007-014 (2007).
• S.W. Lee et al., ILC Global Design Effort and World Wide Study Group International Linear ColliderReference Design Report, ILC-Report-2007-001 (2007).
• P. Le Du et al., Fourth Concept Detector Development at the International Linear Collider,http://physics.uoregon.edu/ lc/wwstudy/concepts/ (2007).
• S.W. Lee, et al., The TeV 4LHC Higgs Working Group Tevatron-for-LHC Report: Higgs, arXiv:hep-ph/0612172; FERMILAB-CONF-06-467 (2006).
4.4 Newsletter
• S.W. Lee and T. Bai, Report on the Physics Symposium of the UKC 2010, AKPA Newsletter, Vol. 28,Number 4, pp. 9-11 (2010).
• S.W. Lee and J. Yu, Flash News: The First 7 TeV Proton-Proton Collisions at LHC, AKPA Newsletter,Vol. 28, Number 3, pp. 11-13 (2010).
• S.W. Lee and J. Yu, The First Collisions at the Large Hadron Collider, AKPA Newsletter, Vol. 28, Num-ber 5, pp. 5-8 and KSEA Newsletter, Vol. 38, Number 2, pp. 42-43 (2010).
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PRESENTATIONS
I have made over 50 presentations at nationally or internationally renowned conferences. Of these, 30 wereinvited or plenary talks.
Type 2012 - 2017 2006 - 2011 < 2006
Invited (conference, workshop) 7 0 1Invited (lecture, seminar, etc.) 5 3 5
Plenary 3 5 1Parallel 2 6 10Poster 0 2 0
Total 17 16 17
Invited, Keynotes, and Plenary Addresses
2017 Search for new resonances decaying into W, Z and H bosons at CMSParallel talk, Phenomenology 2017 Symposium, Pittsburgh
2016 Possible New Discoveries at LHCInvited lecture, Phi Beta Kappa, Lubbock
2016 Exotica searches at CMSInvited talk, 2016 Mitchell Workshop on Collider and Dark Matter and Neutrino Physics, College Station
2016 Recent highlights of QCD: High-pT jet & V+jets production at LHCInvited talk, KITP Program: Experimental Challenges for the LHC Run II, Santa Barbara
2015 Highlights: QCD and Hadronic Final StatesPlenary talk, XXIII. International Workshop on Deep-Inelastic Scattering, Dallas
2015 QCD Jet Physics at CMS ExperimentInvited seminar, Lawrence Berkeley National Laboratory, Berkeley
2014 High pT jet spectra and αs measurements up to the scale of the topPlenary talk, The International Symposium on Physics in Collision, Bloomington
2014 Whats Next for the Large Hardon Collider?Invited talk, The US-Korea Conference on Science, Technology, and Entrepreneurship, San Francisco
2014 Summary of the QCD physics at Hadron CollidersParallel talk, Large Hadron Collider Physics Conference, New York
2013 God Particle: Higgs”Invited lectures, Association of Retired Professors in Daegu & Kyungpook, Korea
2013 Recent Results from the CMS Experiment at LHCInvited seminar, Korea Advanced Institute of Science and Technology, Korea
2013 Discovering the Quantum Universe at the Energy Frontier: Recent Results from CMS Experiment at LHCInvited talk, The US-Korea Conference on Science, Technology, and Entrepreneurship, East Rutherford
2013 The God Particle - A New Frontier: Part I & IIInvited lectures, OLLI & Alumni Association, Lubbock
2013 Review of New Particle Searches from ATLAS and CMSInvited talk, American Physical Society April Meeting 2013, Denver
2013 Review of CMS Exotic ResultsPlenary talk, 2013 Aspen Winter Conference on particle physics, ”Higgs Quo Vadis”, Aspen
2012 Recent Results from LHC Experiments at CERNInvited talk, US-Korea Workshop: International Cooperation in Particle, Nuclear & Astrophysics, Korea
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2012 Searches for Higgs in CMS ExperimentInvited talk, Symposium on Special Topics in Physics, Arlington
2011 Recent CMS Physics Results at the LHCInvited seminars, Seoul National University, Korea
2011 Recent Results from CMS Experiment at LHCPlenary talk, TeV 2011 Workshop, Korea
2011 Recent CMS Physics Results at the LHCInvited seminars, Korean Institute for Advanced Study, Korea
2011 Non-SUSY Searches with CMSParallel talk, Phenomenology 2011 Symposium, Madison, WI
2011 Recent Results from CMS Experiment at the LHCInvited colloquium, Texas Tech Univ., Lubbock
2010 Search for Dijet Resonances in 7 TeV pp Collisions at CMSPoster, US LHC Users Organization Annual Meeting 2010, Batavia
2010 Searches for Physics BSM at CMSPlenary talk, The 21st Annual Hadron Colider Physics Symposium, Toronto, Canada
2010 Experimental Particle Physics at Large Hadron ColliderPlenary talk, The US-Korea Conference on Science, Technology, and Entrepreneurship, Seattle
2009 CMS Study of Hadronic W-Decays in the Jets+MET Final State at LHCParallel talk, The 2009 Texas Section APS Joint Fall Meeting, San Marcos
2008 CMS Computing at TTU and the Searches for New Physics at the LHCParallel talk, The 2008 Joint Fall Meeting of the Texas & Four Corners Sections APS, El Paso
2008 Status of the CMS HCAL and Performance on the First Beam at LHCParallel talk, The 2008 Joint Fall Meeting of the Texas & Four Corners Sections APS, El Paso
2007 Recent Results of the CMS Hadron Calorimeters in the Combined Test BeamsParallel talk, The 2007 Nuclear Science Symposium and Medical Imaging Conference, IEEE 2007, Hawaii
2007 Study of the CMS Combined Calorimeter Response to Low Energy Electron and Pion BeamsParallel talk, The 2007 Texas Section of the APS Joint Spring Meeting, Abilene
2007 Status of the CMS Hadron Calorirmter at LHC: Combined Test Beams, Installation, and CommissioningPoster, XXIII International Symposium on Lepton and Photon Interactions at High Energy, Korea
2007 Recent Results of the HCAL in the Combined Test BeamsPlenary talk, CMS Week, Geneva, Switzerland
2006 Non-SUSY Searches for Physics Beyond Standard Model at the TevatronPlenary talk, International Conference on Physics at LHC, Cracow, Poland
2005 Status of CDF ExperimentInvited talks (every 3 weeks), Fermilab All Experiments’ meeting, Batavia
204 What the CDF Diphoton Search Teaches us about H→ γγParallel talk, TeV4LHC Workshop, Batavia
2003 Searches for Physics Beyond Standard Model at Hadron ColliderInvited seminar, Kyungpook National University, Korea
2003 SUSY Searches with Photons in CDFParallel talk, The 11th International Conference on Supersymmetry, Tucson
2003 Direct Photon ProductionInvited lecture, CTEQ Summer School on QCD Analysis and Phenomenology, Sant Feliu de Guixols, Spain
2002 Probing QCD and Searching for New PhysicsInvited seminar, Center for High Emergy Physics, Korea
2002 Probing QCD and Searching for New PhysicsInvited seminar, Daegu University, Korea
2002 Global Photon SummaryPlenary talk, The 14th Topical Conference on Hadron Collider Physics, Karlsruhe, Germany
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2000 Prompt Photons in Photoproduction at HERAParallel talk, The 8th International Workshop on Deep Inelastic Scattering, Liverpool, UK
2000 Prompt Photons at ZEUS ExperimentParallel talk, Particle Physics 2000 Conference, Edinburgh, UK
1999 Prompt Photon Processes at HERAParallel talk, International Conference on the Structure and Interactions of the Photon, Freiburg, Germany
1998 Prompt Photons in Hard PhotoproductionParallel talk, RAL Summer School for Young High Energy Physicists, Abingdon, UK
1997 Monte Carlo Simulation of Effect of Matrix Size of PbWO4 Crystal CalorimeterInvited seminar, University of Glasgow, Glasgow, UK
1996 Monte Carlo Simulation of Effect of Matrix Size of PbWO4 Crystal Calorimeter on Energy ResolutionParallel talk, Korean Physics Society Meeting, Korea
1996 Status of Parity Violating Experiment in CEBAFParallel talk, Korean Physics Society Meeting, Korea
1996 Study of Scintillating Crystal PbWO4 with EGS4Parallel talk, Korean Physics Society Meeting, Korea
1995 Comparison of Scintillator Plate Calorimeter Data and Simulation using CALOR89Parallel talk, Korean Physics Society Meeting, Korea
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Self-Statement on Research and Creative Activity
Dr. Sung-Won Lee
OverviewIn the past 24 years, I have built a strong research profile as a particle physicist both at the national and the inter-national level. As an experimental particle physicist, I seek to help discover the missing fundamental buildingblocks of our physical world and to answer some of the most profound questions on the structure of matter andthe evolution of the early Universe. The Standard Model (SM) of Particle Physics presents a remarkable pictureof the fundamental constituents of matter and their interactions, and it further describes our knowledge of parti-cles and forces. In the past few decades, predictions of the SM have been thoroughly tested experimentally andhave been successfully validated by precision measurements. The model is not complete, however, and thereare numerous questions yet to be answered – e.g., what new physics might exist beyond the SM and whetherthe SM is part of a larger theory such as Beyond SM (henceforth BSM). And contributing to answering suchquestions is among the goals of my research.
Previous & Current ResearchIn my field, discovering new particles by performing direct experimental searches is often considered the high-est priority and I have been playing leading roles in such endeavors. My accomplishments to date includeproviding experimental verification for some of the most important theories in particle physics. Currently, Iam working on the Compact Muon Solenoid experiment (CMS). The CMS is one of the most premier parti-cle physics experiments in the world, with more than 3000 physicists involved, and it makes use of the LargeHadron Collider (LHC), the world?s highest energy particle accelerator located at CERN (European Laboratoryfor Particle Physics, Geneva, Switzerland). I play a key role in a number of projects under CMS, as detailedbelow.
Upon arriving at Texas Tech University (TTU) in 2006 as a tenure-track assistant professor of physics, Igot involved in preparing the CMS to be run at LHC in 2009. I also began working on improving the CMSdetector’s sensitivity to Jet Physics by utilizing the Hadron Calorimeter (HCAL). I played an active role in theinstallation, commissioning, and monitoring of the HCAL. For example, I twice led the combined calorimetertest beams (TB) as Deputy Run Coordinator at CERN (in 2006 and 2007), and in this capacity I was responsiblefor the daily running of operations and the on-line/off-line systems. I also took on high profile data analysesusing TB data and served as Analysis Coordinator. In recognition of my contributions to the HCAL project, Iwas invited to make several conference presentations to give the most recent update on HCAL.
Aside from such detector related work, I developed a software package for jet performances in CMSas well. This package was an important addition to CMS, which greatly improved on the data quality ofthe experiment. I also worked on accurate measurements of energy imbalance, which is known as MissingTransverse Energy (MET). A good understanding of MET is crucial because it is often used as a pointer topossible new physics signals; furthermore, it is required for reconstructing various SM physics processes. Inaddition, I participated in the joined efforts to develop a new type of a combined compensating calorimeter forthe Phase 2 CMS upgrades anticipated for the HL-LHC until 2014, when the proposal was turned down by theCMS management. The TTU group recently decided to work on the High Granularity Calorimeter (HGC) forthe Phase 2 upgrade and I will make substantial contributions to this project for the next few years.
My most visible and fruitful research in recent years has been doing physics with LHC data (e.g., Testof Standard Model and Searches for New Physics). I have been actively involved in several physics analysesin the context of SM, BSM, and Higgs physics. First of all, in 2010, I performed and co-led a search fornarrow resonances in the dijet mass spectrum and set the world’s most stringent limits on the existence ofseveral theorized new types of particles. Multiple updates were published as the integrated luminosity andcenter-of mass energy increased. The most up-to-dated analysis using 2016 data has been just accepted forpublication. A dark matter (DM) model was explicitly investigated for the dijet channel for the first time in thispaper (Notably, these results have also received media attention: e.g., CERN Courier) I recently extended the
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scope of dijet analysis to: (1) narrow resonances decaying to b-quarks and (2) wide dijet resonances. Second,I have made numerous contributions to the searches for SM Higgs boson (1) decaying into two W bosons and(2) decaying through the vector-boson-fusion processes, thereby helping to verify recent observation of Higgsboson at LHC. I then expanded the analysis to look for additional Higgs bosons with higher masses using thefull Run 1 dataset while also utilizing the experiences gained from high mass Higgs search in the semi-leptonicH→WW channel. Third, I have been working on various SM measurements (e.g., cross-section measurementsof jet, dibodon (WW/WZ & Zγ), triboson (WWγ/WZγ), Z+jets, and forward-backward asymmetry of Drell-Yan pairs) while conducting a number of BSM searches simultaneously: e.g., searches for extra-dimensions anddark matter particles in monophoton (Run 1) and monojet (Run 2) channels, respectively (The Run 1 analysisprovided for the first time DM detection cross section limits at the collider experiments). Finally, I am currentlyleading a small team (TTU, Milano, Peking) conducting searches for heavy resonances that decay into a pairof bosons (WW, WZ) in semileptonic final states. The main results of this analysis using early Run 2 datasethave been recently published in JHEP, and several more publications are forthcoming in the next few months.My contributions to the SM and BSM physics have been recognized with numerous invitations to give plenarytalks at international conferences.
My significant contributions to the CMS physics program have also brought me several other honors: forinstance, I was appointed as the Co-convener of the Exotica-Multijet group (from Mar. 2010 to Mar. 2013)and that of the Standard Model-Jet physics group (Jan. 2013 - Dec. 2014). The charges of these posts includedexploring BSM/SM physics program with final state jets. Additionally, I served as jet/photon physics co-convener of the LHC Electroweak working group. Since 2012, I have also been active in CMS by serving as ananalysis review committee (ARC) for various physics analyses. The ARC is charged with evaluating the scopeand contents of the paper, as well as analysis review prior to publication.
At present, I am a deputy team leader (a.k.a. deputy institute representative) for the TTU CMS group andmy responsibilities include developing, implementing, carrying out a coherent research program for physicsanalysis, physics object, and detector performance, and upgrade activities of the CMS experiment by the TTUCMS group. To perform such duties and to participate in various events/activities in the CMS, I spend a signifi-cant amount of time at CERN (four months per year on average) every summer. In parallel with my CMS work,I am also active in high energy physics computing, and collaborate closely with TTU HPCC (High PerformanceComputing Center). In 2008, I built a CMS Tier-3 center, which is one of the first CMS Tier-3 site in the UnitedStates, and a CMS remote monitoring center at TTU to take the CMS off-line shift during the LHC collisionruns. To initiate this major computing task, I applied for and obtained a Research Enhancement Fund awardedby TTU. Furthermore, in 2008, I established a research infrastructure for the TTU CMS group at Fermilab LHCPhysics Center (LPC). Additionally, I obtained a strong financial support for several Ph.D. students from LPCand also received funding from the URA visiting scholar award and the CMS LPC distinguished researcheraward programs, which allowed me to support two postdoctoral researchers for four consecutive years.
Prior to my appointment at TTU, I participated actively in particle physics experiments such as ZEUSexperiment at DESY (Germany) and CDF experiment at Fermilab (Batavia, IL). During my Ph.D. years at theUniversity of Glasgow in the UK, I worked on ZEUS and measured the inclusive cross sections of promptphotons in electron-proton collisions for the first time. I also measured the effective transverse momentum ofpartons in the proton in events with a photon and the associated jet. While working on CDF as a postdoctoralresearch fellow, I tested SM and verifying new physics models such as gauge mediated SUSY (the first CDFSUSY paper in Run II), minimal SUSY (MSSM/mSUGRA), R-parity violating SUSY, and Leptoquark. Mycontributions to the SM and BSM physics garnered me several invited plenary talks at international confer-ences. I also taught at the prestigious HEP summer school in 2003. In addition, I worked on various hardware(RunIIa EMTiming project and RunIIb TDC upgrade project) and software projects (ObjectMon: online dataquality monitoring system) and played a leading role in each task. Finally, in 2005, I served as OperationsManager of CDF, the largest scientific collaboration in the world at that time.
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Publication & Presentation RecordMy research record evidences the vital role I play in my field: I have co-authored over 1100 publications inrefereed journals and 176 publications in non-refereed articles (e.g. conference proceedings, physics analysissummary, analysis note, report, and newsletter) as a member of the ZEUS, CDF, and CMS collaborations. Imade significant contributions to 256 of these (80 refereed articles and 176 non-refereed ones) and 230 publi-cations of them came out after my arrival at TTU (71 refereed and 159 non-refereed articles but all in highlyrespected venues). Finally, I have made over 50 presentations at nationally or internationally renowned con-ferences (of these, 33 were made after my arrival at TTU and 23 were invited or plenary talks). Finally, I wasamong the few particle physicists selected to give an invited overview talk on two different topics on behalf ofLHC experiments, once at the APS meeting in 2013 (Denver) and Mitchell workshop in 2016 (College Station)for BSM, and the PIC symposium in 2014 (Bloomington) and KITP workshop in 2016 (Santa Barbara) for SM.
Service to the ProfessionI have served my profession in several important ways. First, in my area of specialization, I have been hold-ing leadership positions in three large international scientific collaborations in high energy physics, namely,ZEUS (consisted of over 400 physicists), CDF (consisted of 700 physicists), and CMS (consisted of over 3000physicists) experiments. At CDF, I was a co-leader of a project which commissions and operates the mostsophisticated on-line and off-line data quality monitoring system. In 2005, I made a significant contribution byserving as the operations manager of the CDF experiment: in this capacity, I was responsible for ensuring thatCDF experiments are run both safely and successfully. I also served as the CDF representative to other experi-ments across the Fermilab main site including its accelerator division, in our efforts to define the most efficientplanning/running of the Tevatron collider program. Furthermore, I regularly presented on the state-of-the art ofCDF Experiment at Fermilab’s All Experiments’ meeting on behalf of the CDF collaboration.
At CMS, I served twice as Deputy Run Coordinator and Analysis Coordinator of combined calorimeter testbeam tasks (once in summer 2006 and summer 2007), and as Safety Officer in H2 beam-line at CERN. From2010 to 2014 (five years), I was appointed Co-convener of CMS Exotica-Multijet group for a three-year termand Standard Model-Jet physics group for a two-year term, an important physics analysis sub-groups which arecomprised of many scientists and doctoral students in CMS and whose charge is to explore BSM/SM physicswith final state multi-jets. These appointments were a significant distinction since among the thousands ofphysicists involved in CMS across the world, only a handful of individuals are selected to lead physics analysisgroups. Under my co-leadership, the CMS Exotica-Multijet group and Standard Model-Jet physics grouphas thus far generated 18 and 12 publications in internationally renowned journals, respectively. I have alsobeen active in serving as an internal referee or reviewer for various research projects and tasks in CMS, ashave bee acknowledged by the upper-level administration of the CMS collaboration, which in turn have greatlyenhanced TTU’s visibility in the CMS experiment. In recent years, I have also been invited to serve as a programcommittee and/or session chair of major HEP conferences almost every year such as 2017 Pheno symposiumBSM session chair, 2016 UKC HEP session chair, 2015 DIS workshop QCD working group convener, andLHCP Conference QCD session chair to name but a few. I actively involved in organizing and hosting the 15thInternational Conference in High Energy Calorimetry (CALOR 2012) in June 2012 as well, which was one ofthe major international conferences in high energy physics instrumentations. I served as Co-editor of the 300-page Proceedings published by IOP Publishing Ltd. (Journal of Physics: Conference Series Volume 404) in2012. Since 2014, I have been serving on the CMS Conference Committee and coordinated 584 presentationsof CMS results for 48 scientific conferences/workshops. Finally, in 2017, I served as a proposal reviewer ofSwiss National Science Foundation.
My service contributions go well beyond High Energy Physics: Most notably, I chaired the Publicity andEditorial Review Committee of the Association of Korean Physicists in America (AKPA: voluntary associationof APS-FIP), serving as the editor-in-chief of AKPA Quarterly Newsletter at the same time. I also served asAKPA’s Membership Director for two years and twice received a Service Award from AKPA in recognitionof my dedicated service to the organization over the past several years. Secondly, I served on the Scholar-ship Committee and Contest Committee for the Korean-American Scientists and Engineers Association and I
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was elected as Technical Group A (Physics) Councilor in 2016. Thirdly, since 2012, I have been serving assecretary-treasurer for the South Plains Regional Science & Engineering Fair. Finally, I have been an activeparticipant in the NSF-QuarkNet program and I am currently serving as P.I. and leader mentor at TTU chap-ter from 2010. I, along with other HEP faculty at TTU, am dedicated to working with the area teachers andstudents at all levels, helping to train the next generation of scientists.
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