GIULIO STANCARI, P .D. - Fermilabstancari/Stancari_CV_Feb_2017.pdf · Giulio Stancari’s CV 5 Developed new curriculum in Accelerator Physics (PHYS 499 / PHYS 630) for advanced undergraduates

GIULIO STANCARI, PH.D.

ScientistAccelerator Division, Accelerator Physics Center

FERMI NATIONAL ACCELERATOR LABORATORY (TEL) +1 630 840 3934MAIL STATION 339 (FAX) +1 630 840 6039P.O. BOX 500 〈[email protected]〉BATAVIA, ILLINOIS 60510 U.S.A. 〈HTTP://HOME.FNAL.GOV/~STANCARI〉

RESEARCH EXPERIENCE AND ACCOMPLISHMENTS

Scientist I 2011–presentFermi National Accelerator Laboratory, Batavia, IL– led the study, design and implementation of an electron lens in the Fermilab IOTA ring

for nonlinear integrable optics, electron cooling, and space-charge compensation– co-led, in collaboration with the LHC collimation team, the conceptual and technical

design study of hollow electron beam collimation for HL-LHC at CERN (endorsed byan international review committee in October 2016)

– participated in the design and construction of beam monitors based on synchrotronlight for the Fermilab IOTA ring

– measured beam properties in the rf photoinjector at the Fermilab FAST facility usingsolenoid scans

– studied the feasibility of electron lenses as ‘electron wires’ for long-range beam-beamcompensation in colliders such as HL-LHC

– studied theoretically and experimentally the physics of transverse beam diffusion andhalo dynamics in hadron storage rings and colliders, including the Tevatron, RHIC, andLHC

– managed and maintained the Fermilab electron-lens test stand laboratory

Associate Scientist 2009–2011Fermi National Accelerator Laboratory, Batavia, IL– demonstrated collimation with hollow electron beams in the Fermilab Tevatron collider– studied beam-beam compensation with Gaussian electron lenses in the Tevatron– measured transverse beam diffusion with collimator scans in the Tevatron– maintained Fermilab electron-lens test stand laboratory– measured transverse coherent beam-beam modes in the Tevatron– investigated space-charge compensation with trapped electron plasma columns

Research Assistant Professor 2008–2009Idaho State University, Pocatello, IDThomas Jefferson National Accelerator Facility, Newport News, VA– designed positron source for the Idaho Accelerator Center and for CEBAF– taught Accelerator Physics to graduate students and advanced undergraduates

Giulio Stancari’s CV 2

Staff Physicist 2005–2014 (on leave 2009–2014)INFN (Istituto Nazionale di Fisica Nucleare), Ferrara, Italy– achieved laser trapping of radioactive francium atoms for atomic parity violation– characterized production target for radioactive beams of francium, including diffusion

and surface desorption– devised new complementary-scan method for highest-precision measurements of nar-

row charmonium resonances in antiproton-proton annihilations– investigated feasibility of a compact recirculating-beam ion source– studied beam lifetime limitations at the COSY cooler synchrotron (Jülich, Germany) for

(anti)proton polarization studies– built scintillating-fiber beam profiler for crystal channeling experiments

Post-doctoral Researcher 2001–2005INFN Laboratori Nazionali di Legnaro, ItalyUniversità di Ferrara, ItalyINFM (Istituto Nazionale di Fisica della Materia), Siena, Italy– designed, built and commissioned electrostatic beamline for transport of radioactive

francium beams from the production target to a magneto-optical trap– designed francium ion source and extraction optics

Research Associate 1998–2000Fermi National Accelerator Laboratory, Batavia, IL– designed and developed dynamic lattice with variable momentum compaction for the

Antiproton Accumulator, necessary for running charmonium experiment E835– oversaw deceleration group during E835 operations– performed decelerations and energy changes during E835 run– contributed to the commissioning of the Antiproton Source and lattice upgrade for

Run II– improved and maintained controls software– wrote closed-orbit software for beam-position monitors– measured electromagnetic form factor of the proton at large timelike momentum trans-

fers in antiproton-proton annihilations– provided accurate antiproton beam energy profiles for precision measurements of char-

monium resonance parameters

Research Assistant 1996–1997Università di Ferrara, Italy– built first scintillating-fiber tracker with VLPC readout– evaluated tracking performance of the detector– participated in E835 data-taking run at Fermilab


Exchange Scholar summers of 1994 and 1995Fermi National Accelerator Laboratory, Batavia, IL– prepared and characterized fibers for scintillating-fiber detector– simulated pp̄ → φφ → 4K trigger rate in antiproton-proton annihilations for charmo-

nium studies

EDUCATION

Ph.D. in Physics, Università di Ferrara, Italy, January 1999: “Measurements of the mag-netic form factor of the proton at large timelike momentum transfers,” FERMILAB-THESIS-1998-28. Advisors: Prof. R. Calabrese and Prof. D. Bettoni.

B.Sc. and M.Sc. in Physics, summa cum laude, Università di Ferrara, Italy, July 1995: “Studiodei decadimenti del mesone ψ′” (“Study of the decays of the ψ′ meson”). Advisor: Prof.D. Bettoni.

PHYSICS COMMUNITY SERVICE

Reviewer for the following journals: Physical Review Special Topics — Accelerators andBeams; Journal of Instrumentation; Physics of Plasmas; Nuclear Instruments and Meth-ods in Physics Research A; Review of Scientific Instruments; European Physical Journal;and Physics Procedia.

Point of contact for the Fermilab Italians internship, 2017

Member of the selection committee for the Fermilab PARTI internship, 2017

Member of the committee for the Fermilab joint PhD program in accelerator physics,2016–present

Reviewer for the US Department of Energy Office of Basic Energy Sciences, February 2016

Reviewer for the technical design review of the Mu2e beamline, controls, and instrumen-tation, October 2015.

Member of selection committee for Fermilab Lee Teng internships, 2015–2017

Reviewer of the beamline optics for the Fermilab muon g− 2 project, October 2014

Session chair at the Workshop on Opportunities for Polarized Physics at Fermilab,May 2013.

Member of the Ph.D. Qualifying Exam Committee at Idaho State University, 2009.

Member of the Selection Committee for High-School Interns at Idaho State University,2009.

Member of the Selection Committee for REU students (Research Experiences for Under-graduates) at Idaho State University, 2009.

Scientific Organizer of Seminars, Department of Physics and INFN, Ferrara, Italy, 2005–2008.


Member of the Scientific Committee for the exhibit “Radioattività, una faccia dellanatura,” (“Radioactivity: A Facet of Nature”), Ferrara, Italy, April–May 2005.

Organizer of an Open House at the Department of Physics, Ferrara, Italy, May 2002.

MENTORING

Currently supervising Miriam Fitterer, US LARP Toohig Post-doctoral Fellow since March2016, on electron lenses for LHC: collimation and beam-beam compensation.

Currently supervising Joschka Wagner, joint graduate student (Goethe University, Frank-furt; CERN; and Fermilab) since August 2015, on halo control methods for LHC.

Co-supervised undergraduate student Diletta Milana (Politecnico di Milano, Italy), Fer-milab Italians internship July–September 2016, “Simulation and Visualization of e-column in IOTA ring using ParaView.”

Supervised master student Andrea Scarpelli (University of Ferrara, Italy), FermilabPARTI Internship June–August 2016. Master Thesis: “Development of a SynchrotronRadiation Beam Monitor for the Integrable Optics Test Accelerator” (September 2016)FERMILAB-MASTERS-2016-05.

Supervised graduate student Daniel Noll (Goethe University, Frankfurt, Germany), Fer-milab, September–December 2014: “Field calculations, single-particle tracking, and beamdynamics with space charge in the electron lens for the Fermilab Integrable Optics TestAccelerator,” FERMILAB-TM-2598-AD-APC.

Master thesis co-supervisor for Vince Moens (École Polytechnique Fédérale de Lausanne,Switzerland), with Prof. Leonid Rivkin (EPFL, Switzerland) and Dr. Stefano Redaelli(CERN): “Experimental and numerical studies on the proposed application of hollowelectron beam collimation for the LHC at CERN,” CERN-THESIS-2013-126, FERMILAB-MASTERS-2013-02, February–September 2013.

Supervised Jin-Seok Kim, Young-Hyun Cho, and Boo Seung Yang from Prof. Hae JuneLee’s group at Pusan National University, Korea: “Simulation of hollow electron beamsfor controlled halo collimation,” January–February 2013.

Served as mentor for the Lee Teng Undergraduate Fellowship in Accelerator Science andEngineering (summer 2012). Student: Siqi Li (University of Chicago).

Supervised Valentina Previtali, a US LARP Toohig Fellow and a Fermilab Guest Scientistworking on hollow electron beam collimation, August 2011 – July 2013.

Served as advisor for several B.Sc. theses in particle and accelerator physics.

TEACHING

Taught Accelerator Physics Lecture Series for undergraduate and graduate students, Uni-versity of Ferrara, Italy, 2015–2017


Developed new curriculum in Accelerator Physics (PHYS 499 / PHYS 630) for advancedundergraduates and for graduate students at Idaho State University, Spring 2009.

Taught Accelerator Physics to undergraduates at Università di Ferrara, Italy, 2007–2008.

Taught Electromagnetism and Optics problem sessions to undergraduates at Universitàdi Ferrara, Italy, 2001–2007.

Obtained Math and Physics teaching credentials for Italian high schools.

Delivered several invited lectures to high-school students and teachers.

PROFESSIONAL DEVELOPMENT

High Performance Scientific Computing, Coursera.org, Spring 2014.

Advanced Course on Vacuum Technology, INFN-LASA, Milan, Italy, 7–10 November 2005.

CERN Accelerator School, Intermediate Level, DESY Zeuthen, Germany, 15–26 September2003.

The Laboratory: A Tool of the Trade, Summer School of the Italian Association for PhysicsTeaching (AIF), L’Aquila, Italy, 29 July – 3 August 2002.

Selected Topics in Accelerator Technology, Cornell and Fermilab, Fall 2000.

Workshop on Confidence Limits, Fermilab, Batavia, IL, 27–28 March 2000.

Accelerator School 1999, Fermilab, Batavia, IL, 2–13 August 1999.

Practical Statistics for Particle Physicists, Fermilab, Batavia, IL, June 1999.

Microwave Measurements, Fermilab, Batavia, IL, March–April 1999.

An Incomplete Education in Accelerator Technology, Fermilab 1998 Summer Class, Batavia,IL, 3–14 August, 1998.

U.S. Particle Accelerator School, Austin, TX, 19–30 January 1998.

IX National Seminars on Nuclear and Subnuclear Physics, Otranto, Italy, 23–28 September1996.

SKILLS

General and scientific computing: UNIX/Linux, Mac OS, DOS/Windows, Fortran 95, C,Python, HTML/CSS, tcsh/bash, git, GUIs, LaTeX, CERN Libraries, Numerical Recipes,R, Fermilab accelerator controls (console applications, ACL scripts), MAD, Trace 3D,PBO Lab, Simion 3D, Warp, Astra, lifetrac.

Hardware experience: instrumentation, electronics, vacuum technology.

DAQ systems: CAMAC/VME, DSP, LabVIEW, Fermilab ACNET.

Languages: Italian (native), English (fluent), French and Spanish (basic).


PROFESSIONAL ORGANIZATIONS

Member of the Society for Industrial and Applied Mathematics since 2013.

Member of IEEE since 2010, Senior Member since 2014.

Member of the American Physical Society since 2009.

Member of the American Association of Physics Teachers since 2003.

COLLABORATIONS

Pusan National University, Korea

CERN, Geneva, Switzerland

University of California, San Diego

Jefferson Lab, USA

Forschungszentrum Jülich, Germany

INFN Laboratori Nazionali di Legnaro, Italy

Goethe University, Frankfurt, Germany

GSI, Darmstadt, Germany

Brookhaven National Laboratory, USA

GRANTS

Co-PI in DOE SBIR proposal with RadiaSoft LLC on “Advanced concepts for dynamicscraping of hadron beam halo,” submitted February 2017.

S. Nagaitsev (PI), Y. K. Kim, G. Stancari, and A. Valishev, “McMillan Nonlinear Acceler-ator Focusing System,” University of Chicago / Fermi National Accelerator LaboratoryStrategic Collaborative Initiative, awarded June 2016.

Progetto Giovani Ricercatori (Young Researchers Project), University of Ferrara, Italy,“Misura della velocità di atomi di rubidio tramite il tempo di volo,” (“Measurement ofthe velocity of rubidium atoms from time of flight”) awarded in 2001.

AWARDS AND HONORS

CERN Visiting Scientist, 2016–present.

Fermilab Employee Reward and Recognition, 2015.

IEEE Senior Member, May 2014.

Exceptional Performance Recognition Award, Fermilab, 2011.

Fermilab Employee Reward and Recognition, 2010.

Best Poster Award, CERN Accelerator School, 2003.


PUBLICATIONS IN PEER-REVIEWED JOURNALS

1. M. Ambrogiani et al.,“Construction and performance of a cylindrical scintillating fiber detector for exper-iment 835 at FNAL,”IEEE Trans. Nucl. Sci. 44, 460–463 (1997).

2. M. Ambrogiani et al.,“The E835 scintillating fiber detector,”Nucl. Phys. B (Proc. Suppl.) 61, 384–389 (1998).

3. M. Ambrogiani et al.,“Results from the E835 scintillating fiber detector,”Nucl. Instrum. Methods A 419, 632–636 (1998).

4. M. Ambrogiani et al.,“The Fermilab E835 scintillating fiber detector,”Nucl. Phys. B (Proc. Suppl.) 78, 479–483 (1999).

5. M. Ambrogiani et al. (E835 Collaboration),“Measurements of the magnetic form factor of the proton in the timelike region atlarge momentum transfer,”Phys. Rev. D 60, 032002 (1999).

6. M. Ambrogiani et al. (E835 Collaboration),“Study of the χc0(13P0) state of charmonium formed in p̄p annihilations,”Phys. Rev. Lett. 83, 2902–2905 (1999).

7. M. Stancari et al. (E835 Collaboration),“Two photon decay widths of charmonium resonances,”Nucl. Phys. B (Proc. Suppl.) 82, 306–310 (2000).

8. W. Baldini et al.,“The charged trigger of experiment E835 at Fermilab,”Nucl. Instrum. Methods A 449, 331–343 (2000).

9. M. Ambrogiani et al. (E835 Collaboration),“Study of the γγ decays of the χ2 and χ0 charmonium resonances,”Phys. Rev. D 62, 052002 (2000).

10. M. Ambrogiani et al. (E835 Collaboration),“Measurement of the branching ratios ψ′ → e+e−, ψ′ → π0π0 and ψ′ → J/ψ η,”Phys. Rev. D 62, 032004 (2000).

11. C. Patrignani et al. (E835 Collaboration),“E835 at FNAL: charmonium spectroscopy in p̄p annihilations,”Nucl. Phys. A 692, 308–314 (2001).


12. W. Baldini et al.,“The new scintillating fiber detector of E835 at Fermilab,”Nucl. Instrum. Methods A 461, 219–221 (2001).

13. W. Baldini et al.,“The new scintillating fiber detector of E835 at Fermilab,”IEEE Trans. Nucl. Sci. 48, 1122–1126 (2001).

14. M. Ambrogiani et al. (E835 Collaboration),“Search for the η′c (21S0) charmonium resonance,”Phys. Rev. D 64, 052003 (2001).

15. M. Ambrogiani et al. (E835 Collaboration),“Study of the angular distributions of the reactions p̄p→ χc1, χc2 → J/ψγ→ e+e−γ,”Phys. Rev. D 65, 052002 (2002).

16. S. Bagnasco et al. (E835 Collaboration),“New measurements of the resonance parameters of the χc0 (13P0) state of charmo-nium,”Phys. Lett. B 533, 237–242 (2002).

17. M. Andreotti et al. (E835 Collaboration),“Measurements of the magnetic form factor of the proton for timelike momentumtransfers,”Phys. Lett. B 559, 20–25 (2003).

18. D. P. McGinnis, G. Stancari e S. J. Werkema,“Beam decelerations with variable momentum compaction in the Fermilab Antipro-ton Accumulator,”Nucl. Instrum. Methods A 506, 205–216 (2003).

19. M. Ambrogiani et al. (E835 Collaboration),“Measurement of the resonance parameters of the charmonium ground state,ηc(11S0),”Phys. Lett. B 566, 45–50 (2003).

20. M. Andreotti et al. (E835 Collaboration),“Interference study of the χc0(13P0) in the reaction p̄p→ π0π0,”Phys. Rev. Lett. 91, 091801 (2003).

21. M. M. Obertino et al. (E835 Collaboration),“Charmonium states at the Fermilab Antiproton Accumulator. New results fromE835,”Nucl. Phys. A 721, 809–812 (2003).

22. S. N. Atutov et al.,“Cooling and trapping of radioactive atoms: the Legnaro francium magneto-optical


trap,”J. Opt. Soc. Am. B 20, 953–959 (2003).

23. S. N. Atutov et al.,“Trapping of radioactive atoms: the Legnaro francium magneto-optical trap,”Phys. Scripta T105, 15–18 (2003).

24. S. N. Atutov et al.,“The Legnaro francium magneto-optical trap,”Hyperfine Interact. 146/147, 83–89 (2003).

25. M. Andreotti et al. (E835 Collaboration),“Measurement of the two photon decay of the χc0 (13P0) state of charmonium,”Phys. Lett. B 584, 16–21 (2004).

26. G. Garzoglio et al. (E835 Collaboration),“Experiment E835 at Fermilab,”Nucl. Instrum. Methods A 519, 558–609 (2004).

27. S. N. Atutov et al.,“Production and trapping of francium atoms,”Nucl. Phys. A 746, 421–424 (2004).

28. M. Andreotti et al. (E835 Collaboration),“Measurement of the branching ratios ψ′ → e+e−, ψ′ → J/ψ π π, and ψ′ → J/ψ η,”Phys. Rev. D 71, 032006 (2005).

29. L. Corradi et al.,“Excitation functions for 208−211Fr produced in the 18O +197 Au fusion reaction,”Phys. Rev. C 71, 014609 (2005).

30. S. N. Atutov et al.,“Laser cooling and trapping of francium,”Laser Phys. 15, 1080–1086 (2005).

31. M. Andreotti et al. (E835 Collaboration),“Measurement of the resonance parameters of the χc1 (13P1) and χc2 (13P2) states ofcharmonium formed in antiproton-proton annihilations,”Nucl. Phys. B 717, 34–47 (2005).

32. M. Ambrogiani et al. (E835 Collaboration),“Measurement of the angular distribution in p̄p→ ψ(2S)→ e+e−,”Phys. Lett. B 610, 177–182 (2005).

33. C. Patrignani et al. (E835 Collaboration),“E835 at FNAL: charmonium spectroscopy in p̄p annihilations,”Nucl. Phys. B (Proc. Suppl.) 142, 98 (2005).


34. M. Andreotti et al. (E835 Collaboration),“Results of a search for the hc(1P1) state of charmonium in the ηc γ and J/ψ π0 decaymodes,”Phys. Rev. D 72, 032001 (2005).

35. M. Andreotti et al. (E835 Collaboration),“A study of p̄p → two neutral pseudoscalar mesons at the χc0(13P0) formation en-ergy,”Phys. Rev. D 72, 112002 (2005).

36. G. Stancari et al.,“Production of radioactive beams of francium,”Nucl. Instrum. Methods A 557, 390 (2006).

37. G. Stancari et al.,“Francium sources at LNL: design and performance,”Rev. Sci. Instrum. 77, 03A701 (2006).

38. M. Andreotti et al. (E835 Collaboration),“Precision measurements of the total and partial widths of the ψ(2S) charmoniummeson with a new complementary-scan technique in antiproton-proton annihila-tions,”Phys. Lett. B 654, 74 (2007).

39. G. Stancari et al.,“Francium sources and traps for fundamental interaction studies,”Eur. Phys. J. ST 150, 389 (2007).

40. G. Stancari, L. Corradi, and A. Dainelli,“A beam transport line for magneto-optical trapping experiments with radioactivefrancium,”Nucl. Instrum. Methods Phys. Res. A 594, 321 (2008).

41. C. de Mauro et al.,“Measurement of diffusion coefficients of francium and rubidium in yttrium basedon laser spectroscopy,”Phys. Rev. A 78, 063415 (2008).

42. S. Sanguinetti et al.,“Accurate measurements of transition frequencies and isotope shifts of laser-trappedfrancium,”Opt. Lett. 34, 893 (2009).

43. S. N. Atutov et al.,“Experimental study of vapor-cell magneto-optical traps for efficient trapping of ra-dioactive atoms,”Eur. Phys. J. D 53, 89 (2009).


44. D. Oellers et al.,“Polarizing a stored proton beam by spin flip?”Phys. Lett. B 674, 269 (2009).

45. M. Bellei, P. Bussei, G. Stancari,“Determinazione della carica specifica dell’elettrone per mezzo della deflessionemagnetica dei raggi catodici,”La Fisica nella Scuola XLII(2), 53 (2009).

46. V. Shiltsev, G. Stancari, and A. Valishev,“Ambient betatron motion and its excitation by ‘ghost lines’ in Tevatron,”FERMILAB-PUB-11-202-APC,JINST 6, P08002 (2011).

47. G. Stancari et al.,“Collimation with hollow electron beams,”FERMILAB-PUB-11-192-AD-APC, arXiv:1105.3256 [physics.acc-ph],Phys. Rev. Lett. 107, 084802 (2011).

48. N. Mokhov et al.,“Tevatron beam halo collimation system: design, operational experience and newmethods,”FERMILAB-PUB-11-378-APC,JINST 6, T08005 (2011).

49. G. Stancari and A. Valishev,“Bunch-by-bunch measurement of transverse coherent beam-beam modes in the Fer-milab Tevatron collider,”FERMILAB-PUB-11-181-APC, arXiv:1104.4366 [physics.acc-ph],Phys. Rev. ST Accel. Beams 15, 041002 (2012).

50. W. Erni et al. (PANDA Collaboration),“Technical design report for the PANDA (Antiproton Annihilations at Darmstadt)Straw Tube Tracker,”Eur. Phys. J. A 49, 25 (2013).

51. G. Valentino et al.,“Beam diffusion measurements using collimator scans in the LHC,”FERMILAB-PUB-13-040-APC,Phys. Rev. ST Accel. Beams 16, 021003 (2013).

52. W. Erni et al. (PANDA Collaboration),“Technical design report for the PANDA (Antiproton Annihilations at Darmstadt)Straw Tube Tracker,”Eur. Phys. J. A, 49, 25 (2013).


53. B. P. Singh et al. (PANDA Collaboration),“Experimental access to transition distribution amplitudes with the PANDA experi-ment at FAIR,”Eur. Phys. J. A 51, 107 (2015).

54. B. L. Beaudoin, J. C. T. Thangaraj, D. Edstrom Jr., J. Ruan, A. H. Lumpkin, D. Broem-melsiek, K. A. Carlson, D. J. Crawford, A. Romanov, J. K. Santucci, G. Stancari,R. Thurman-Keup, and A. Warner,“Longitudinal bunch shaping of picosecond high-charge MeV electron beams,”Phys. Plasmas 23, 103107 (2016).

55. Y. H. Jo, J. S. Kim, G. Stancari, M. Chung, and Hae June Lee,“Control of the diocotron instability of a hollow electron beam with periodic dipolemagnets,”submitted to Phys. Plasmas (2016).

56. S. Antipov, D. Broemmelsiek, D. Bruhwiler, D. Edstrom, E. Harms, V. Lebedev,J. Leibfritz, S. Nagaitsev, C. S. Park, H. Piekarz, P. Piot, E. Prebys, A. Romanov,J. Ruan, T. Sen, V. Shiltsev, G. Stancari, C. Thangaraj, R. Thurman-Keup, and A. Vali-shev,“IOTA (Integrable Optics Test Accelerator): Facility and Experimental Beam PhysicsProgram,”submitted to J. Instrum. (2016).

PAPERS PRESENTED AT CONFERENCES AND WORKSHOPS

57. M. Ambrogiani et al., “Results from the E835 cylindrical scintillating-fiber tracker,”in Proceedings of the Workshop on Scintillating Fiber Detectors (SCIFI97), Notre Dame,IN, November 1997, AIP Conf. Proc. 450, 181–188 (1998).

58. G. Stancari (for the E835 collaboration), “Measurements of the magnetic form factorof the proton at large timelike momentum transfers,” in Proceedings of the II Inter-national Conference on Perspectives in Hadronic Physics, ICTP Trieste, May 10–14, 1999(World Scientific, 2000).

59. G. Stancari et al., “Production and transport of radioactive francium for magneto-optical trapping,” in Proceedings of the 9th European Particle Accelerator Conference(EPAC04), Lucerne, Switzerland, July 5–9, 2004, p. 1294.

60. G. Stancari, “Francium trapping at LNL,” 4th Joint European HITRAP / ION-CATCHER / NIPNET Meeting, Munich, Germany, May 26–28, 2005.

61. G. Stancari, “Precision measurement of the ψ(2S) width in antiproton-proton an-nihilations,” International Workshop on Heavy Quarkonium, Brookhaven NationalLaboratory, Upton, NY, June 27–30, 2006.


62. P. Lenisa et al., “A low beta section for polarization studies of antiprotons by spin fil-tering,” in Proceedings of the 22nd Particle Accelerator Conference (PAC07), Albuquerque,NM, June 25–29, 2007, p. 1451.

63. G. Stancari, “A new complementary-scan technique for precise measurements of res-onance parameters in antiproton-proton annihilations,” in Proceedings of the 22nd Par-ticle Accelerator Conference (PAC07), Albuquerque, NM, June 25–29, 2007, p. 1448.

64. G. Stancari, “Positron program at the Idaho Accelerator Center,” in Proceedings of theInternational Workshop on Positrons at Jefferson Lab, Newport News, VA, March 25–27,2009, AIP Conf. Proc. 1160, 115 (2009).

65. G. Stancari, A. Valishev, and A. Semenov, “Bunch-by-bunch detection of coherenttransverse modes from digitized single-BPM signals in the Tevatron,” in Proceedingsof the 14th Beam Instrumentation Workshop (BIW10), Santa Fe, NM, May 2–6, 2010,p. 363, FERMILAB-CONF-10-102-AD-APC.

66. G. Stancari et al., “Development of hollow electron beams for proton and ion colli-mation,” in Proceedings of the 1st International Particle Accelerator Conference (IPAC10),Kyoto, Japan, May 23–28, 2010, p. 1698, FERMILAB-CONF-10-182-AD-APC.

67. A. Valishev et al., “Progress with Tevatron electron lens head-on beam-beamcompensation,” in Proceedings of the 1st International Particle Accelerator Conference(IPAC10), Kyoto, Japan, May 23–28, 2010, p. 2084, FERMILAB-CONF-10-137-AD-APC.

68. G. Stancari et al., “Hollow electron beam collimator: R&D status report,” in Proceed-ings of the 14th Advanced Accelerator Concepts Workshop (AAC10), Annapolis, MD, June13–19, 2010, FERMILAB-CONF-10-196-APC, AIP Conf. Proc. 1299, 638 (2010).

69. X. L. Zhang et al., “Operation of the Tevatron electron lenses,” in Proceedings of the46th ICFA Advanced Beam Dynamics Workshop on High-Intensity and High-BrightnessHadron Beams (HB2010), Morschach, Switzerland, September 27 – October 1, 2010,p. 185, FERMILAB-CONF-10-399-AD.

70. A. Valishev and G. Stancari, “Results of head-on beam-beam compensation studiesat the Tevatron,” in Proceedings of the 2011 Particle Accelerator Conference (PAC11), NewYork, NY, March 28 – April 1, 2011, MOODN1, FERMILAB-CONF-11-060-AD-APC.

71. G. Stancari et al., “Experimental study of magnetically confined hollow electronbeams in the Tevatron as collimators for intense high-energy hadron beams,” in Pro-ceedings of the 2011 Particle Accelerator Conference (PAC11), New York, NY, March 28 –April 1, 2011, MOP147, FERMILAB-CONF-11-058-AD-APC.

72. G. Stancari, “Collimation studies with hollow electron beams,” in Proceedings ofthe 2011 International Particle Accelerator Conference (IPAC11), San Sebastián, Spain,September 4–9, 2011, FERMILAB-CONF-11-412-AD-APC.


73. G. Stancari, “Measurements of transverse beam diffusion rates in the Tevatron col-lider,” in Proceedings of the 2011 International Particle Accelerator Conference (IPAC11),San Sebastián, Spain, September 4–9, 2011, FERMILAB-CONF-11-411-AD-APC.

74. G. Stancari, “New methods of particle collimation in colliders,” in Proceedings ofthe 2011 Meeting of the Division of Particles and Fields of the American Physical Society(APS/DPF 2011), Brown University, Providence, Rhode Island, August 9–13, 2011,arXiv:1110.0144 [physics.acc-ph], FERMILAB-CONF-11-506-AD-APC.

75. I. Morozov et al., “Simulation of Hollow Electron Beam Collimation in the FermilabTevatron Collider,” in Proceedings of the 2012 International Particle Accelerator Confer-ence (IPAC12), New Orleans, Louisiana, USA, May 20–25, 2012, p. 94, FERMILAB-CONF-12-126-APC.

76. V. Previtali et al., “Numerical Simulations of Transverse Beam Diffusion Enhance-ment by the Use of Electron Lens in the Tevatron Collider,” in Proceedings of the 2012International Particle Accelerator Conference (IPAC12), New Orleans, Louisiana, USA,May 20–25, 2012, p. 1113, FERMILAB-CONF-12-162-APC.

77. G. Stancari et al., “Beam halo dynamics and control with hollow electron beams,”in Proceedings of the 52nd ICFA Advanced Beam Dynamics Workshop on High-Intensityand High-Brightness Hadron Beams (HB2012), Beijing, China, September 17–21, 2012,arXiv:1209.5380 [physics.acc-ph], FERMILAB-CONF-12-506-AD-APC.

78. G. Stancari and A. Valishev, “Beam-beam compensation studies in the Tevatronwith electron lenses,” in Proceedings of the ICFA Workshop on Beam-Beam Effects inHadron Colliders (BB2013), Geneva, Switzerland, March 2013, FERMILAB-CONF-13-046-APC.

79. G. Stancari, A. Valishev, and S. M. White, “Detection of coherent beam-beam modeswith digitized beam position monitor signals,” in Proceedings of the ICFA Workshopon Beam-Beam Effects in Hadron Colliders (BB2013), Geneva, Switzerland, March 2013,FERMILAB-CONF-13-053-APC.

80. G. Stancari et al., “Measurements of the effect of collisions on transverse beam halodiffusion in the Tevatron and in the LHC,” in Proceedings of the ICFA Workshop onBeam-Beam Effects in Hadron Colliders (BB2013), Geneva, Switzerland, March 2013,FERMILAB-CONF-13-054-APC.

81. V. Previtali, G. Stancari, A. Valishev, and S. Redaelli, “Hollow electron lens simula-tions for the SPS,” in Proceedings of the 2013 International Particle Accelerator Conference(IPAC13), Shanghai, China, May 2013, p. 990, FERMILAB-CONF-13-152-APC.

82. V. Previtali, G. Stancari, A. Valishev, and S. Redaelli, “Numerical simulations of ahollow electron lens as a scraping device for the LHC,” in Proceedings of the 2013 In-ternational Particle Accelerator Conference (IPAC13), Shanghai, China, May 2013, p. 993,FERMILAB-CONF-13-154-APC.


83. G. Stancari, V. Previtali, A. Valishev, R. Bruce, S. Redaelli, A. Rossi, B. SalvachuaFerrando, V. Moens, “Collimation with hollow electron beams: a proposed designfor the LHC upgrade,” in Proceedings of the 2013 North American Particle AcceleratorConference (NA-PAC13), Pasadena, CA, USA, 29 September – 4 October 2013, p. 413,FERMILAB-CONF-13-355-APC.

84. G. Stancari, M. Chung, A. Valishev, V. Moens, H. J. Lee, “Calculation of the kickmaps generated by a hollow electron lens for studies of high-energy hadron beamcollimation,” in Proceedings of the 2013 North American Particle Accelerator Conference(NA-PAC13), Pasadena, CA, USA, 29 September – 4 October 2013, p. 481, FERMILAB-CONF-13-356-APC.

85. G. Stancari, S. Redaelli, V. Moens, “Beam dynamics in an electron lens with the Warpparticle-in-cell code,” in Proceedings of the 5th International Particle Accelerator Con-ference (IPAC14), Dresden, Germany, 15–20 June 2014, p. 451, FERMILAB-CONF-14-180-APC.

86. G. Stancari, A. Valishev, R. Bruce, S. Redaelli, A. Rossi, B. Salvachua Ferrando, “Elec-tron lenses for the Large Hadron Collider,” in Proceedings of the 5th InternationalParticle Accelerator Conference (IPAC14), Dresden, Germany, 15–20 June 2014, p. 918,FERMILAB-CONF-14-179-APC.

87. J. Ruan, R. Andrews, C. M. Baffes, D. R. Broemmelsiek, K. Carlson, B. Chase,M. D. Church, D. J. Crawford, E. Cullerton, J. S. Diamond, N. Eddy, D. R. Edstrom,E. R. Harms, A. Hocker, A. S. Johnson, A. L. Klebaner, M. J. Kucera, J. R. Leibfritz,A. H. Lumpkin, J. N. Makara, S. Nagaitsev, O. A. Nezhevenko, D. J. Nicklaus,L. E. Nobrega, P. S. Prieto, J. Reid, J. K. Santucci, G. Stancari, D. Sun, M. Wendt,S. J. Wesseln, P. Piot, “Commissioning status of the Advanced Superconducting TestAccelerator at Fermilab,” in Proceedings of the 5th International Particle Accelerator Con-ference (IPAC14), Dresden, Germany, 15–20 June 2014, p. 2615.

88. G. Stancari, “Applications of electron lenses: scraping of high-power beams, beam-beam compensation, and nonlinear optics,” in Proceedings of the 16th Advanced Accel-erator Concepts Workshop (AAC2014), San Jose, CA, USA, 13–18 July 2014, edited byM. Hogan (AIP, 2016), FERMILAB-CONF-14-314-APC, arXiv:1409.3615 [physics.acc-ph], AIP Conf. Proc. 1777, 100007 (2016).

89. G. Stancari, “Measurements of beam halo diffusion and population density in theTevatron and in the Large Hadron Collider,” in Proceedings of the 54th ICFA Ad-vanced Beam Dynamics Workshop on High-Intensity and High-Brightness Hadron Beams(HB2014), East Lansing, MI, USA, November 10–14, 2014, p. 294, FERMILAB-CONF-14-450-AD-APC, arXiv:1411.4580 [physics.acc-ph].

90. G. Stancari, K. Carlson, M. W. McGee, L. E. Nobrega, A. L. Romanov, J. Ruan, A. Vali-shev, and D. Noll, “Electron lenses for experiments on nonlinear dynamics with widestable tune spreads in the Fermilab Integrable Optics Test Accelerator,” in Proceedings


of the 6th International Particle Accelerator Conference (IPAC15), Richmond, VA, USA, 3–8 May 2015, p. 46, FERMILAB-CONF-15-136-AD-APC.

91. D. J. Crawford, C. Baffes, D. R. Broemmelsiek, K. Carlson, B. E. Chase, E. Cullerton,J. Diamond, N. Eddy, D. R. Edstrom, E. R. Harms, A. Hocker, C. Joe, A. L. Klebaner,M. Kucera, J. Leibfritz, A. Lumpkin, J. Makara, S. Nagaitsev, O. A. Nezhevenko,D. J. Nicklaus, L. E. Nobrega, P. R. Piot, P. S. Prieto, J. Reid, J. Ruan, J. K. Santucci,W. Soyars, G. Stancari, D. Sun, R. M. Thurman-Keup, A. Valishev, A. Warner, S. Wes-seln, “First Beam and High-Gradient Cryomodule Commissioning Results of the Ad-vanced Superconducting Test Accelerator at Fermilab,” in Proceedings of the 6th Inter-national Particle Accelerator Conference (IPAC15), Richmond, VA, USA, 3–8 May 2015,p. 1831, FERMILAB-CONF-15-630-AD.

92. S. Redaelli, A. Bertarelli, R. Bruce, D. Perini, A. Rossi, B. Salvachua, G. Stancari, andA. Valishev, “Plans for Deployment of Hollow Electron Lenses at the LHC for En-hanced Beam Collimation,” in Proceedings of the 6th International Particle AcceleratorConference (IPAC15), Richmond, VA, USA, 3–8 May 2015, p. 2462, FERMILAB-CONF-15-135-AD-APC.

93. G. Stancari, A. Burov, V. Lebedev, S. Nagaitsev, E. Prebys, A. Valishev, “Electronlenses and cooling for the Fermilab Integrable Optics Test Accelerator,” in Proceedingsof the Workshop on Beam Cooling and Related Topics (COOL15), Jefferson Lab, NewportNews, VA, USA, 28 September – 2 October 2015, FERMILAB-CONF-15-446-AD-APC,arXiv:1511.01812 [physics.acc-ph].

94. J. F. Wagner, R. Bruce, H. Garcia Morales, W. Hoefle, G. Kotzian, R. Kwee-Hinzmann,A. Langner, A. Mereghetti, E. Quaranta, S. Redaelli, A. Rossi, B. Salvachua, R. Tomás,G. Valentino, D. Valuch, and G. Stancari, “First Attempts at using Active Halo Con-trol at the LHC,” in Proceedings of the 7th International Particle Accelerator Conference(IPAC16), Busan, Korea, May 8–13, 2016, p. 2486, FERMILAB-CONF-16-276-AD-APC.

95. M. W. McGee, K. Carlson, L. E. Nobrega, G. Stancari, and A. Valishev, “Electron LensConstruction for Integrable Optics Test Accelerator at Fermilab,” in Proceedings ofthe 7th International Particle Accelerator Conference (IPAC16), Busan, Korea, May 8–13,2016, p. 2271, FERMILAB-CONF-16-153-AD.

96. G. Stancari, A. Burov, K. Carlson, D. Crawford, V. Lebedev, J. Leibfritz, M. McGee,S. Nagaitsev, L. Nobrega, C. S. Park, E. Prebys, A. Romanov, J. Ruan, V. Shiltsev, Y.-M. Shin, C. Thangaraj, A. Valishev, and D. Noll, “Electron Lens for the Fermilab Inte-grable Optics Test Accelerator,” in Proceedings of the 57th ICFA Advanced Beam Dynam-ics Workshop on High-Intensity and High-Brightness Hadron Beams (HB2016), Malmö,Sweden, July 3–8, 2016, p. 170, FERMILAB-CONF-16-244-AD-APC.

97. C. S. Park, D. Milana, V. D. Shiltsev, G. Stancari, and J. C. T. Thangaraj, “Space ChargeCompensation Using Electron Columns and Electron Lenses at IOTA,” in Proceedings


of the 2015 North American Particle Accelerator Conference (NAPAC15), Chicago, Illinois,October 9–14, 2016, FERMILAB-CONF-16-525-APC-CD.

98. M. Fitterer, G. Stancari, A. Valishev, R. Bruce, S. Papadopoulou, G. Papotti, D. Pel-legrini, S. Redaelli, D. Valuch, and J. F. Wagner, “Hollow Electron Beam Collimationfor the HL-LHC — Effect on the Beam Core,” in Proceedings of the 2015 North Amer-ican Particle Accelerator Conference (NAPAC15), Chicago, Illinois, October 9–14, 2016,FERMILAB-CONF-16-387-AD.

99. J. Gerity, P. M. McIntyre, D. L. Bruhwiler, C. C. Hall, V. Moens, C. S. Park, and G. Stan-cari, “Simulations of Space Charge Neutralization in a Magnetized Electron Cooler,”in Proceedings of the 2015 North American Particle Accelerator Conference (NAPAC15),Chicago, Illinois, October 9–14, 2016, FERMILAB-CONF-16-647-AD-APC.

100. D. Edstrom, C. M. Baffes, C. I. Briegel, D. R. Broemmelsiek, K. Carlson, B. E. Chase,D. J. Crawford, E. Cullerton, J. S. Diamond, N. Eddy, B. J. Fellenz, E. R. Harms,M. J. Kucera, J. R. Leibfritz, A. H. Lumpkin, D. J. Nicklaus, E. Prebys, P. S. Prieto,J. Reid, A. L. Romanov, J. Ruan, J. K. Santucci, T. Sen, V. D. Shiltsev, Y.-M. Shin,G. Stancari, J. C. T. Thangaraj, R. M. Thurman-Keup, A. Valishev, A. Warner, S. J. Wes-seln, A. T. Green, A. Halavanau, D. Mihalcea, P. Piot, J. Hyun, P. Kobak, andW. D. Rush, “50-MeV Run of the IOTA/FAST Electron Accelerator,” in Proceedings ofthe 2015 North American Particle Accelerator Conference (NAPAC15), Chicago, Illinois,October 9–14, 2016, FERMILAB-CONF-16-648-AD-APC.

OTHER PUBLICATIONS

101. D. McGinnis, G. Stancari, and S. Werkema, “Guidelines for the Calculation of the Ac-cumulator Magnet Bus Ramps for Fermilab Experiment E835,” FERMILAB-PBAR-NOTE-611, April 15, 1999.

102. G. Garzoglio, K. E. Gollwitzer, and G. Stancari, “DSP algorithm for the closed orbitanalysis of the signal from the Accumulator BPMs,” FERMILAB-PBAR-NOTE-615,August 19, 1999.

103. G. Stancari, “Parameterization of hysteresis effects in Accumulator quadrupole mag-nets,” FERMILAB-PBAR-NOTE-619, FERMILAB-TM-2094, October 1999.

104. S. N. Atutov et al., “Highly efficient magneto optical trapping of Rb atoms: prelim-inary tests toward a Fr MOT,” LNL Annual Report 2000, p. 154 LNL-INFN(REP)-178/2001, ISBN 88-7337-000-4.

105. S. N. Atutov et al., “A new beam line for the production and transport of radioactivefrancium ions into a magneto-optical trap,” LNL Annual Report 2001, p. 196, LNL-INFN(REP)-182/2002, ISBN 88-7337-002-0.


106. S. N. Atutov et al., “Production of francium ions for TRAPRAD,” LNL Annual Report2001, p. 198, LNL-INFN(REP)-182/2002, ISBN 88-7337-002-0.

107. S. N. Atutov et al., “A beam line for transport of radioactive francium ions from theproduction target to a magneto-optical trap,” LNL Annual Report 2002, p. 174, LNL-INFN(REP)-198/2003, ISBN 88-7337-006-3.

108. S. N. Atutov et al., “Preliminary tests of the Legnaro francium magneto-optical trap,”LNL Annual Report 2002, p 176, LNL-INFN(REP)-198/2003, ISBN 88-7337-006-3.

109. L. Corradi et al., “Excitation functions for 208-211Fr produced in the 18O + 197Au fu-sion reaction,” LNL Annual Report 2003, p. 40, LNL-INFN(REP)-202/2004, ISBN88-7337-004-7.

110. S. N. Atutov et al., “Production and transport of radioactive francium for magneto-optical trapping,” LNL Annual Report 2004, p. 250, LNL-INFN(REP)-204/2004, ISBN88-7337-008-X.

111. V. Biancalana et al., “High sensitivity CCD camera detection for weak radioactiveatoms MOT,” LNL Annual Report 2004, p. 62, LNL-INFN(REP)-204/2005, ISBN 88-7337-008-X.

112. N. Brambilla et al. (Quarkonium Working Group), “Heavy quarkonium physics,”arXiv:hep-ph/0412158v2, CERN Yellow Report CERN-2005-005.

113. P. Lenisa et al. (PAX Collaboration), “Antiproton-proton scattering experiments withpolarization,” arXiv:hep-ex/0505054v1.

114. S. N. Atutov et al., “The Traprad laser setup for francium magneto-optical trapping,”LNL Annual Report 2005, p. 205, INFN-LNL-210(2006), ISBN 88-7337-009-8.

115. S. N. Atutov et al., “Performance of francium ion sources,” LNL Annual Report 2005,p. 207, INFN-LNL 210(2006), ISBN 88-7337-009-8.

116. S. N. Atutov et al., “Development of francium traps for studies of fundamental inter-actions,” LNL Annual Report 2006, p. 265, INFN-LNL-217(2007), ISSN 1828-8545.

117. R. Calabrese et al., “New apparatus for precision measurements of Fr trapping fre-quencies,” LNL Annu. Rep. 2007, p. 228, INFN-LNL-222(2008), ISSN 1828-8545.

118. S. N. Atutov et al., “209-210-211 Francium MOT Optical Signals,” LNL Annu. Rep.2007, p. 75, INFN-LNL-222(2008), ISSN 1828-8545.

119. S. N. Atutov et al., “Diffusion coefficients and trapping efficiencies measured withlaser spectroscopy,” LNL Annu. Rep. 2007, p. 73, INFN-LNL-222(2008), ISSN 1828-8545.

120. J. Appel et al., “Physics with a High-Intensity Proton Source at Fermilab: Project XGolden Book,” FERMILAB-FN-0904, February 3, 2008.


121. S. Sanguinetti et al., “High-Precision Measurement of the Laser-Trapping Frequen-cies for 209,210,211Fr Atoms,” arXiv:0807.4397v1 [physics.atom-ph].

122. W. Erni et al. (PANDA Collaboration), “Physics performance report for PANDA:Strong interaction studies with antiprotons,” arXiv:0903.3905v1 [hep-ex].

123. S. Sanguinetti et al., “Accurate atomic transition frequencies and isotope shifts infrancium,” LNL Annual Report 2008, p. 73, INFN-LNL-226(2009), ISSN 1828-8545.

124. L. Bartoszek et al., “Proposal 986: medium-energy antiproton physics with the an-tiproton annihilation spectrometer (TApAS) at Fermilab,” FERMILAB-PROPOSAL-0986, November 2010.

125. D. Bettoni et al., “Experimental proposal to study the excess at Mjj = 150 GeV pre-sented by CDF at Fermilab,” arXiv:1105.3661v1 [hep-ex], FERMILAB-FN-0922-APC.

126. G. Stancari, “Diffusion Model for the Time Evolution of Particle Loss Rates In Col-limator Scans: A Method for Measuring Stochastic Transverse Beam Dynamics inCircular Accelerators,” arXiv:1108.5010 [physics.acc-ph], FERMILAB-FN-0926-APC.

127. Siqi Li and G. Stancari, “Characterization of an Electron Gun for Hollow ElectronBeam Collimation,” FERMILAB-TM-2542-APC (2012).

128. G. Stancari et al., “Measurements of transverse beam halo diffusion rates in the LHCwith collimator scans,” FERMILAB-FN-0950-APC (2012).

129. G. Valentino et al., “Halo Scraping, Diffusion and Repopulation MD,” CERN-ATS-Note-2012-074 MD (2012).

130. V. Shiltsev, V. I. Balbekov, M. Chung, G. Stancari, and A. Valishev, “On the possi-bility of demonstrating ionization cooling with proton beams on an internal hydro-gen target in the IOTA ring at the Fermilab ASTA facility,” Fermilab Beams-doc-4284(February 2013).

131. G. Stancari, “Monte Carlo estimate of impact parameter distributions from the diffu-sion coefficients measured with collimator scans,” Fermilab Beams-doc-4290 (Febru-ary 2013).

132. V. Previtali, G. Stancari, A. Valishev, and S. Redaelli, “Numerical simulations of a pro-posed hollow electron beam collimator for the LHC upgrade at CERN,” FERMILAB-TM-2560-APC (July 2013).

133. A. Valishev and G. Stancari, “Electron lens as beam-beam wire compensator inHL-LHC,” FERMILAB-TM-2571-APC, arXiv:1312.1660 [physics.acc-ph] (December2013).

134. G. Stancari, “Calculation of the transverse kicks generated by the bends of a hollowelectron lens,” FERMILAB-FN-0972-APC, arXiv:1403.6370 [physics.acc-ph] (March2014).


135. G. Stancari, V. Previtali, A. Valishev, R. Bruce, S. Redaelli, A. Rossi, B. Salvachua Fer-rando, “Conceptual design of hollow electron lenses for beam halo control in theLarge Hadron Collider,” FERMILAB-TM-2572-APC, arXiv:1405.2033 [physics.acc-ph] (June 2014).

136. D. Noll and G. Stancari, “Field calculations, single-particle tracking, and beam dy-namics with space charge in the electron lens for the Fermilab Integrable OpticsTest Accelerator,” FERMILAB-TM-2598-AD-APC, arXiv:1511.04507 [physics.acc-ph](November 2015).

137. G. Valentino, R. Bruce, S. Redaelli, R. Rossi, B. Salvachua Ferrando, G. Stancari,A. Valloni, and J. Wagner, “Diffusion and halo population measurements with colli-mator scans at 6.5 TeV,” CERN-ACC-Note-2016-0010 (February 2016).

138. J. Wagner, R. Bruce, H. Garcia Morales, W. Hofle, G. Kotzian, R. Kwee-Hinzmann,A. Langner, A. Mereghetti, E. Quaranta, S. Redaelli, A. Rossi, B. Salvachua Fer-rando, R. Tomás Garcia, D. Valuch, G. Valentino, and G. Stancari, “Active halo controlthrough narrow-band excitation with the ADT,” CERN-ACC-Note-2016-0009 (April2016).

139. M. Fitterer, G. Stancari, A. Valishev, “Effect of pulsed hollow electron lens operationon the proton beam core in the LHC,” FERMILAB-TM-2635-AD, arxiv:1611.02678[physics.acc-ph] (November 2016).

140. G. Stancari, A. Rossi, H. Schmickler, “Design notes for an electron-lens test stand atCERN,” FERMILAB-TM-2629-APC (in preparation).

INVITED TALKS

141. “Measurements of charmonium masses,” Workshop on Quarkonium, CERN,November 8–10, 2002.

142. “Production and trapping of francium at LNL Legnaro,” ISOLDE Workshop andUsers Meeting, CERN, February 6–8, 2006.

143. “Production, transport and laser trapping of radioactive francium beams for thestudy of fundamental interactions,” Accelerator Physics and Technology Seminar,Fermilab, Batavia, IL, January 15, 2008.

144. “Production, transport and laser trapping of radioactive francium beams for thestudy of fundamental interactions,” Idaho State University, Pocatello, ID, June 6,2008.

145. “The development of a prototype positron source for CEBAF as part of the ISU/JLabcollaboration in accelerator physics and education,” Center for Advanced Studies onAccelerators, Jefferson Lab, Newport News, VA, February 12, 2009.


146. “A positron source for CEBAF,” CLAS12 European Workshop, Genoa, Italy, February26, 2009.

147. “Positron program at the Idaho Accelerator Center,” International Workshop onPositrons at Jefferson Lab, Newport News, VA, March 26, 2009.

148. “Experiments with antimatter: the physics of positrons and antiprotons,” Idaho StateUniversity Colloquium, Pocatello, ID, April 27, 2009.

149. “Magnetically confined electron columns and high-energy hadron beams,” Depart-ment of Physics, University of California San Diego, December 7, 2009.

150. “New methods of particle collimation in high-energy colliders,” 2011 Meeting of theDivision of Particles and Fields of the American Physical Society (APS/DPF 2011),Brown University, Providence, RI, August 9, 2011.

151. “Beam halo dynamics and control with hollow electron beams,” 52nd ICFA Ad-vanced Beam Dynamics Workshop on High-Intensity and High-Brightness HadronBeams (HB2012), Beijing, China, September 17–21, 2012.

152. “Riflessioni sul ruolo della scienza e dello scienziato oggi,” Incontri di fisica per do-centi, studenti e cittadinanza, Carpi, Modena, Italy, October 12, 2012 (via videocon-ference).

153. “Magnetically confined electron beams in accelerator physics,” Institut für Ange-wandte Physik, Goethe Universität, Frankfurt am Main, Germany, November 2,2012.

154. “Electron lens studies at the Tevatron,” BNL APEX Workshop, Brookhaven NationalLaboratory, Upton, NY, November 20, 2012.

155. “Dinamica non lineare e teoria del caos,” Incontri di fisica per docenti, studenti ecittadinanza, Carpi, Modena, Italy, September 27, 2013 (via videoconference).

156. “Halo scraping and collimation of high-intensity hadron beams with hollow electronlenses,” GSI Beschleunigerpalaver, Darmstadt, Germany, October 31, 2013.

157. “The Fermilab Integrable Optics Test Accelerator (IOTA),” Advanced Optics ControlWorkshop, CERN, Geneva, Switzerland, 6 February 2015, Beams-doc-4758.

158. “Electron lenses in beam physics,” Northern Illinois University Physics Colloquium,DeKalb, Illinois, 12 February 2016.

159. “Electron lenses for HL-LHC: beam halo control and compensation of beam-beameffects,” US-CMS Meeting, Fermilab, 28 October 2016.


BOOKS AND BOOK CHAPTERS

160. R. Carrigan, V. Lebedev, N. Mokhov, S. Nagaitsev, V. Shiltsev, G. Stancari, D. Still, andA. Valishev, “Emittance growth and beam loss,” in Accelerator Physics at the TevatronCollider, edited by V. Lebedev and V. Shiltsev (Springer, New York, 2014).

161. R. B. Appleby, R. Barlow, A. Bertarelli, R. Bruce, F. Carra, F. Cerutti, L. Esposito,A. Faus-Golfe, H. Garcia Morales, L. Gentini, S. M. Gibson, P. Gradassi, J. M. Jowett,R. Kwee-Hinzmann, L. Lari, A. Lechner, T. Markiewicz, A. Marsili, J. Molson,L. J. Nevay, E. Quaranta, H. Rafique, S. Redaelli, M. Serluca, E. Skordis, G. Stan-cari, G. Steele, and A. Toader, “Collimation system,” Ch. 5 in High-Luminosity LargeHadron Collider (HL-LHC): Preliminary Design Report, edited by G. Apollinari, I. Bé-jar Alonso, O. Brüning, M. Lamont, L. Rossi, CERN-2015-005 (CERN, Geneva, 2015),pp. 109–130.

GS/gs February 6, 2017

Documents

GIULIO STANCARI, P .D. - Fermilabstancari/Stancari_CV_Feb_2017.pdf · Giulio Stancari’s CV 5 Developed new curriculum in Accelerator Physics (PHYS 499 / PHYS 630) for advanced undergraduates