Berkeley Lab

WARP Applications

We would like to thank Prof. Rami Kishek of the University of Maryland for gathering and organizing material for this page.

[1] Laser plasma accelerators

a. S G Rykovanov, C G R Geddes, J-L Vay, C B Schroeder, E Esarey and W P Leemans, “Quasi-monoenergetic femtosecond photon sources from Thomson Scattering using laser plasma accelerators and plasma channels,” J. Phys. B 47, 234013 http://dx.doi.org/10.1088/0953-4075/47/23/234013

b. F. G. Desforges, B. S. Paradkar, M. Hansson, J. Ju, L. Senje, T. L. Audet, A. Persson, S. Dobosz-Dufrénoy, O. Lundh, G. Maynard, P. Monot, J.-L. Vay, C.-G. Wahlström and B. Cros, “Dynamics of ionization-induced electron injection in the high density regime of laser wakefield acceleration,” Phys. Plasmas 21, 120703 (2014); http://dx.doi.org/10.1063/1.4903845

c. C. B. Schroeder, J.-L. Vay, E. Esarey, S. S. Bulanov, C. Benedetti, L.-L. Yu, M. Chen, C. G. R. Geddes, and W. P. Leemans, “Thermal emittance from ionization-induced trapping in plasma accelerators,” Phys. Rev. ST Accel. Beams 17, 101301 (2014) http://dx.doi.org/10.1103/PhysRevSTAB.17.101301

d. L.-L. Yu, E. Esarey, C. B. Schroeder, J.-L. Vay, C. Benedetti, C. G. R. Geddes, M. Chen, and W. P. Leemans, “Two-Color Laser-Ionization Injection,” Phys. Rev. Lett. 112 , 125001 (2014) http://dx.doi.org/10.1103/PhysRevLett.112.125001

e. J.-L. Vay, C. G. R. Geddes, S. G. Rykovanov, C. B. Schroeder, E. Esarey, and W. P. Leemans “Laser-Driven Plasma Deceleration of Electron Beams for Compact Photon Sources,” Nuclear Physics and Gamma-Ray Sources for Nuclear Security and Nonproliferation. December 2014, 77-84

f. J.-L. Vay, C. G. R. Geddes, E. Cormier-Michel, D. P. Grote, “Design of 10 GeV-1 TeV laser wakefield accelerators using Lorentz boosted simulations,” Phys. Plasmas 18, 123103 (2011)

[2] H- beam chopping in a LEBT for Project X

a. https://accelconf.web.cern.ch/accelconf/HB2012/papers/tho3b04.pdf

b. http://inspirehep.net/record/1281358/files/fermilab-conf-13-412-apc.pdf

[3] Ion accelerator linacs and rings for high-energy density physics and heavy ion fusion

a. W. M. Sharp, A. Friedman, D. P. Grote, R. H. Cohen, S. M. Lund, J.-L. Vay, W. L. Waldron, “Alternate operating scenarios for NDCX-II,” Nucl. Instrum. Meth. A 733, 147-152 (2014)

b. I.D. Kaganovich, S. Massidda, E.A. Startsev, R.C. Davidson, J.-L. Vay, A. Friedman, “Effects of errors in velocity tilt on maximum longitudinal compression during neutralized drift compression of intense beam pulses: I. general description,” Nucl. Instrum. Meth. A 678, 48-63 (2012)

Cohen, R.H. ; Grote, D.P. Lund, S.M. ; Sharp, W.M. ; Faltens, A. ; Henestroza, E. Jung, J.-Y. ; Kwan, J.W. ; Lee, E.P. Leitner, M.A. ; Logan, B.G. ; Vay, J.-L. ; Waldron, W.L. Davidson, R.C. ; Dorf, M. Gilson, E.P. ; Kaganovich, I.D. , “Beam dynamics of the Neutralized Drift Compression Experiment-II, a novel pulse-compressing ion accelerator,” Phys. Plasmas 17 , 056704 (2010)

d. Davidson RC, Kaganovich ID, Lee WW, Qin H, Startsev EA, Tzenov S, Friedman A, Barnard JJ, Cohen RH, Grote DP, Lund SM, Sharp WM, Celata CM, de Hoon M, Henestroza E, Lee EP, Yu SS, Vay J.-L, Welch D, Rose DV, Olson CL, “Overview of theory and modeling in the heavy ion fusion virtual national laboratory,” Laser & Particle Beams, 20, pp. 377-384 (2002)

e. Haber I, Bieniosek FM, Celata BM, Friedman A, Grote DP, Henestroza E, Vay J.-L, Bernal S, Kishek RA, O’Shea PG, Reiser M, Herrmannsfeldt WB, “End-to-end simulation: The front end,” Laser & Particle Beams, 20, pp. 431-433 (2002)

f. A. Friedman, J. J. Barnard, M. D. Cable, D. A. Callahan, F. J. Deadrick, S. Eylon, T. J. Fessenden, D. P. Grote, H. A. Hopkins, V. P. Karpenko, D. L. Judd, H. C. Kirbie, D. B. Longinotti, S. M. Lund, and L. A. Nattrass, “Recirculating Induction Accelerators for Inertial Fusion: Prospects and Status,” Fusion Engineering and Design 32-33, 235 (1996).

[4] University of Maryland Electron Ring

a. B. Beaudoin, S. Bernal, C. Blanco, I. Haber, R.A. Kishek, T. Koeth, and Y. Mo, “Modeling HIF relevant longitudinal dynamics in UMER,” Nuclear Instruments and Methods A 733, 178-181 (2014).

b. Y.C. Mo, R.A. Kishek, D. Feldman, I. Haber, B. Beaudoin, P.G. O’Shea, and J.C.T. Thangaraj, “Experimental Observations of Soliton Wave Trains in Electron Beams,” Physical Review Letters 110, 084802 (2013).

c. K. Tian, R.A. Kishek, I. Haber, M. Reiser, and P.G. O’Shea, “Experimental Study of Large-Amplitude Perturbations in Space-Charge Dominated Beams,” Physical Review Special Topics – Accelerators & Beams 13, 034201 (2010).

d. D. Stratakis, R.A. Kishek, I. Haber, R.B. Fiorito, M. Reiser, and P.G. O’Shea, “Experimental verification of tomographic phase-space imaging for beams with space-charge using a pinhole-scan,” Journal of Applied Physics 107, 104905 (2010).

e. D. Stratakis, R.A. Kishek, S. Bernal, R.B. Fiorito, I. Haber, M. Reiser, P.G. O’Shea, K. Tian, and J.C.T. Thangaraj, “Generalized Phase-Space Tomography for Intense Beams,” Physics of Plasmas 17, 056701 (2010).

f. D. Stratakis, R.A. Kishek, I. Haber, S. Bernal, M. Reiser, and P.G. O’Shea, “Experimental Study of Phase Mixing of Intense Nonlinear Beam Distributions,” Physical Review Special Topics – Accelerators & Beams 12, 064201 (2009).

g. I. Haber, D. Feldman, R. Fiorito, A. Friedman, D.P. Grote, R.A. Kishek, P.G. O’Shea, B. Quinn, M. Reiser, J. Rodgers, D. Stratakis, K. Tian, J.-L. Vay, and M. Walter, “Measurement and Simulation of the time dependent behavior of the UMER source,” Nuclear Instruments and Methods A 577, 157-160 (2007).

h. I. Haber, G. Bai, S. Bernal, B. Beaudoin, D. Feldman, R. Fiorito, T.F. Godlove, R. A. Kishek, P.G. O’Shea, B. Quinn, C. Papadopoulos, M. Reiser, J. Rodgers, D. Stratakis, D. Sutter, K. Tian, C.J. Tobin, M. Walter, and C. Wu, “Scaled electron experiments at the University of Maryland,” Nuclear Instruments and Methods A 577, 150-156 (2007).

i. K. Tian, Y. Zou, Y. Cui, I. Haber, R.A. Kishek, M. Reiser, and P.G. O’Shea, “Experimental observations of longitudinal space-charge waves in intense electron beams,” Physical Review Special Topics – Accelerators & Beams 9, 014201 (2006).

j. R.A. Kishek, G. Bai, S. Bernal, D. Feldman, T.F. Godlove, I. Haber, P.G. O’Shea, B. Quinn, C. Papadopoulos, M. Reiser, D. Stratakis, K. Tian, C.J. Tobin, and M. Walter, “UMER: An Analog Computer for Dynamics of Swarms Interacting via Long-Range Forces,” Nuclear Instruments and Methods A 561, 266-271 (2006).

k. R.A. Kishek, S. Bernal, Y. Cui, T.F. Godlove, I. Haber, J. Harris, Y. Huo, H. Li, P.G. O’Shea, B. Quinn, M. Reiser, M. Walter, M. Wilson, and Y. Zou, “HIF Research on the University of Maryland Electron Ring (UMER),” Nuclear Instruments and Methods A 544, 179-186 (2005).

I. Haber, S. Bernal, R.A. Kishek, P.G. O’Shea, B. Quinn, M. Reiser, Y. Zou, A. Friedman, D. P. Grote, and J.-L. Vay, “Measurement and Simulation of the UMER Beam in the Source Region,” Nuclear Instruments and Methods A 544, 441-446 (2005).

m. I. Haber, S. Bernal, C. M. Celata, A. Friedman, D. P. Grote, R.A. Kishek, B. Quinn, P.G. O’Shea, M. Reiser, and J.-L. Vay, “Collective Space-Charge Phenomena in the Source Region,” Nuclear Instruments and Methods A 519, 396-404 (2004).

n. H. Li, S. Bernal, R.A. Kishek, I. Haber, Y. Zou, P.G. O’Shea, and M. Reiser, “Simulation studies on matching of space-charge-dominated beams for the University of Maryland Electron Ring (UMER),” Nuclear Instruments and Methods A 519, 405-411 (2004).

o. R.A. Kishek, S. Bernal, C.L. Bohn, D. Grote, I. Haber, H. Li, P.G. O’Shea, M. Reiser, and M. Walter, “Simulations and experiments with space-charge-dominated beams,” Physics of Plasmas 10 (5), 2016.

p. I. Haber, A. Friedman, D.P. Grote, S. M. Lund, S. Bernal, and R.A. Kishek, “Recent Progress in Heavy Ion Fusion Simulation,” Nuclear Instruments and Methods A464, 343-350 (2001).

q. R.A. Kishek, S. Bernal, P.G. O’Shea, M. Reiser, and I. Haber, “Transverse space-charge modes in non-equilibrium beams,” Nuclear Instruments and Methods A464, 484-492 (2001).

r. V. Tz. Gurovich, Ya. E. Krasik, V. Raichlin, J Felsteiner, and I. Haber, “Addressing the plasma formation on the surface of a ferroelectric sample,” J. Appl. Phys. 106, 053301 (2009).

[5] Anti-hydrogen traps

a. Gomberoff K, Wurtele J, Friedman A, Grote DP, Vay JL, ” A method for obtaining three-dimensional computational equilibrium of non-neutral plasmas using WARP ,” J. Comput. Phys. 225 1736-1752 (2007)

b. Gomberoff K, Fajans J, Friedman A, Grote DP, Vay JL, Wurtele JS, “Simulations of plasma confinement in an antihydrogen trap,” Phys. Plasmas 14 102111 (2007)

c. Gomberoff K, Fajans J, Wurtele JS, Friedman A, Grote DP, Cohen RH, Vay JL, “Simulation studies of non-neutral plasma equilibria in an electrostatic trap with a magnetic mirror,” Phys. Plasmas 14 052107 (2007)

d. Bertsche, W, Boston, A. ; Bowe, P.D, Cesar, C.L, Chapman, S. ; Charlton, M, Chartier, M, Deutsch, A. ; Fajans, J, Fujiwara, M.C, Funakoshi, R, Gill, D, Gomberoff, K, Grote, D, Hangst, J.S, Hayano, R.S, Jenkins, M, Jorgensen, L.V, Madsen, N, Miranda, D, Nolan, P, Ochanski, K, Olin, A, Page, R.D, Posada, L.G.C, Robicheaux, F, Sarid, E, Telle, H.H, Vay, J.-L, Wurtele, J. ; van der Werf, D.P, Yamazaki, Y, “The ALPHA experiment: a cold antihydrogen trap,” AIP Conference Proceedings 796 301 (2005)

[6] Paul traps

e. Gilson E P, Davidson R C, Dorf M, Efthimion P C, Majeski R, Chung M, Gutierrez M S and Kabcenell, “Studies of emittance growth and halo particle production in intense charged particle beams using the Paul trap simulator experiment,” Phys. Plasmas 17 056707 (2009)

f. Ohtsubo S, Fujioka M, Higaki H, Ito K, Okamoto H, Sugimoto H and Lund S M, “Experimental study of coherent betatron resonances with a Paul trap,” Phys. Rev. Special Topics-Accelerators and Beams Accelerators and Beams13 044201 (2010)

[7] Non-conventional Penning-Malmberg microtrap

a. Folegati P, Xu J, Weber M H and Lynn K G, “Positron storage in micro-traps with long aspect ratio: results of computer simulations:, J. Phys.: Conf. Ser. 262 012021 (2011)

[8] ECR ion sources

a. Winklehner D, Todd D, Benitez J, Strohmeier M, Grote D and Leitner D, “Comparison of extraction and beam transport simulations with emittance measurements from the ECR ion source venus,” J. Instrum. 5 12001 (2010)

[9] capture and control of laser-accelerated proton beams

a. N?¼rnberg F, Friedman A, Grote D P, Harres K, Logan B G, Schollmeier M and Roth M, “Warp simulations for capture and control of laser-accelerated proton beams,” J. Phys.: Conf. Ser. 244 022052 (20130)

[10] Multipacting

a. R. A. Kishek, “Ping-pong modes and higher-periodicity multipactor,” Phys. Plasmas 20 056702 (2013), http://dx.doi.org/10.1063/1.4802838

b. R. A. Kishek, “Ping-Pong Modes: A New Form of Multipactor,” Phys. Rev. Lett. 108, 035003, http://dx.doi.org/10.1103/PhysRevLett.108.035003

[11] Electron cloud buildup and effects

c. J.-L. Vay, M. Furman, M. Venturini, “Direct Numerical Modeling of E-Cloud Driven Instability of Three Consecutive Batches in the CERN SPS,” Proc. Int. Particle Accelerator Conf. IPAC’12, New Orleans, 2012, TUEPPB006

d. R. Secondo, J.-L. Vay, Venturini, “Analysis of Numerical Noise in Particle-In-Cell Simulations of Single-Bunch Transverse Instabilities and Feedback in the CERN SPS,” Proc. Int. Particle Accelerator Conf. IPAC’12, New Orleans, 2012, WEPPP076

e. C. Rivetta, J.D. Fox, T. Mastorides, M. Pivi, O. Turgut, W. Hofle, CERN, Geneve, Switzerland, and R. Secondo, J.-L. Vay, “Mathematical Models of Feedback Systems for Control of Intra-Bunch Instabilities Driven by E-Clouds and TMCI,” Proc. 2011 Particle Accelerator Conference, New York, NY (2011) http://accelconf.web.cern.ch/AccelConf/PAC2011/papers/wep079.pdf

f. J.-L. Vay, M. A. Furman, M. Venturini, “Direct Numerical Modeling of E-Cloud Driven Instability of a Bunch Train in the CERN SPS,” Proc. 2011 Particle Accelerator Conference, New York, NY (2011) http://accelconf.web.cern.ch/AccelConf/PAC2011/papers/wep154.pdf

g. J.-L. Vay, M. A. Furman, R. Secondo, M. Venturini, J. D. Fox, C. H. Rivetta, W. Hofle, “Self-Consistent Numerical Modeling of E-Cloud Driven Instability of a Bunch Train in the CERN SPS,” Proc. 49th ICFA Advanced Beam Dynamics Workshop on Electron Cloud Physics, Ithaca, NY (2010)

h. M. Venturini, M. A. Furman, J.-L. Vay, “E-Cloud effects on single-bunch dynamics in the proposed PS2,” Proc. 49th ICFA Advanced Beam Dynamics Workshop on Electron Cloud Physics, Ithaca, NY (2010)

i. M. Venturini, M. Furman, G. Penn, R. Secondo, J-L. Vay R. De Maria, Y. Papaphilippou, G. Rumolo, “E-Cloud Driven Single-Bunch Instabilities in PS2,” Proc. 1st International Particle Accelerator Conference , Kyoto (2010) http://accelconf.web.cern.ch/AccelConf/IPAC10/papers/tupd072.pdf

j. G. Penn, J.-L. Vay, “Theoretical Studies of TE-Wave Propagation as a Diagnostic for Electron Cloud,” Proc. 1st International Particle Accelerator Conference , Kyoto (2010), http://accelconf.web.cern.ch/AccelConf/IPAC10/papers/tupd019.pdf

k. A. W. Molvik , M. Kireeff Covo ,R. Cohen , A. Friedman , S. M. Lund , W. Sharp , J-L. Vay , D. Baca , F. Bieniosek , C. Leister , and P. Seidl , “Quantitative experiments with electrons in a positively charged beam,” 14, 056701 (2007)

l. Vay, J-L.; Furman, M.A.; Seidl, P.A.; Cohen, R.H.; Friedman, A.; Grote, D.P.; Covo-Kireeff, M.; Lund, S.M.; Molvik, A.W.; Stoltz, P.H.; Veitzer, S.; Verboncoeur, J.P, “Self-Consistent Simulations of Heavy-Ion Beams Interacting With Electron-Clouds,” Nucl. Inst. and Meth. A 577, 65-69 (2007)

m. Molvik, A.W.; Kireeff Covo, M.; Cohen, R. H.; Friedman, A.; Sharp, W. M.; Baca, D.; Bieniosek, F. M.; Leister, C.; Seidl, P. A.; Vay, J-L, “Quantitative electron and gas cloud experiments,” Nucl. Inst. and Meth. A 577, 45-51 (2007)

n. W.M. Sharp, D.P. Grote, R.H. Cohen, A. Friedman, J.-L. Vay, P.A. Seidl, P.K. Roy, J.E. Coleman, J. Armijo and I. Haber, “Simulating electron clouds in high-current ion accelerators with solenoid focusing,” Nucl. Inst. and Meth. A 577, 146-149 (2007)

o. P. H. Stoltz, J. P. Verboncoeur, R. H. Cohen, A. W. Molvik, J.-L. Vay, S. A. Veitzer, “Modeling ion-induced electrons in the High Current Experiment,” Phys. Plasmas 13, 056702 (2006)

p. Kireeff Covo, M.;Molvik, A.W.;Friedman, A.;Vay, J-L.;Seidl, P.A.;Logan, B.G.;Baca, D.;Vujic, J.L, “Absolute Measurement of Electron Cloud Density in a Positively-Charged Particle Beam,” Physical Review Letters , 97, 054801 (2006)

q. Cohen, R.H.; Friedman, A.; Lund, S.M.; Molvik, A.W.; Azevedo, T.; Vay, J-L.; Stoltz, P.; Veitzer, S, “Simulating Electron Cloud Effects in Heavy-Ion Beams,” Nucl. Instrum. Meth. A 544, pp. 210-215, (2005)

r. Stoltz, P.H.; Veitzer, S.A.; Cohen, R.; Molvik, A.; Vay J-L, “Energy loss, range, and electron yield comparisons of the CRANGE ion-material interaction code,” Nucl. Instrum. Meth. A 544, pp. 502-505 (2005)

s. Cohen, R. H.; Friedman, A.; Kireeff Covo, M.; Lund, S. M.; Molvik, A.W.; Bieniosek, F. M.; Seidl, P. A.; Vay, J-L.; Stoltz, P.; Veitzer, S, “Simulating Electron Clouds in Heavy-Ion Accelerators,” Phys. Plasmas 12, no. 5, pp.56718-1-10 (2005)

[12] Ion sources

t. I. Haber, D. Feldman, R. Fiorito, A. Friedman, D.P. Grote, R.A. Kishek, B. Quinn, M. Reiser, J. Rodgers, P.G. O?Shea, D. Stratakis, K. Tian, J.-L. Vay, M. Walter, “Measurement and simulation of the time-dependent behavior of the UMER source,” Nucl. Instrum. Meth. A 577, 157-160 (2007)

u. Kwan, J.W.; Bieniosek, F.M.; Waldron, W.L.; Vay, J-L.; Westenskow, G.A.; Halaxa, E.; Haber, I, “Production of a High Brightness Beam from a Large Surface Source,” Nucl. Instrum. Meth. A 544, pp. 430-435 (2005)

v. Haber, I.; Bernal, S.; Kishek, R.A.; O?Shea, P.G.; Reiser, M.; Zou, Y.; Friedman, A.; Grote, D.P.; Vay, J-L, “Measurement and Simulation of the UMER Beam in the Source Region,” Nucl. Instrum. Meth. A 544, pp. 441-446 (2005)

w. Cohen, R. H.; Friedman, A.; Lund, S. M.; Molvik, A.W.; Lee, E. P.; Azevedo, T.; Vay, J-L.; Stoltz, P.; Veitzer, S, “Electron-Cloud Simulation and Theory for High-Current Heavy-Ion Beams,” Phys. Rev. Special Topics-Accelerators and Beams 7, 124201, (2004)

x. Stoltz P.H, Vetzer S, Cohen R, Molvik A.W, Vay J.-L, “Simulation of heavy ion induced electron yield at grazing incidence,” Physical Review Special Topics-Accelerators and Beams , 7, no. 10 (2004)

y. Stoltz PH, Furman MA, Vay J.-L, Molvik AW, Cohen RH, “Numerical simulation of the generation of secondary electrons in the High Current Experiment,” Physical Review Special Topics-Accelerators & Beams, 605, pp. 4701 (2003)

[13] Beam space charge neutralization

z. Lifschitz F.A, Maynard G, Vay J.-L, Lenglet A, “Dynamics of neutralizing electrons during the focusing of intense heavy ions beams inside a HIF reactor chamber,” J. Phys. IV France 133, 753-755 (2006)

aa. Lifschitz, A.F.; Maynard, G.; Vay, J-V, “Dynamics of Neutralized Electrons and the Focusability of Intense Ion Beams in HIF Accelerating Structures,” Nucl. Instrum. Meth. A 544, pp. 202-209 (2005)

bb. Vay J.-L, Deutsch C, “Intense ion beam propagation in a reactor sized chamber,” Nuclear Instruments & Methods in Physics Research Section A-Accelerators Spectrometers Detectors & Associated Equipment, 464, pp. 293-298 (2001)

cc. Sharp W, Callahan-Miller D, Langdon A, Armel. M, Vay J.-L, “Improved modeling of chamber transport for heavy-ion fusion,” Nuclear Instruments and Methods in Physics Research A , 464, pp. 284-292 (2001)

dd. Vay J.-L, Deutsch C, “Charge compensated ion beam propagation in a reactor sized chamber “, Physics of Plasmas , 5, N. 4 (1998)

[14] Space charge beam physics

ee. Haber I, Bernal S, Celata CM, Friedman A, Grote DP, Kishek RA, Quinn B, O’Shea PG, Reiser M, “Collective space-charge phenomena in the source region,” Nuclear Instruments & Methods in Physics Research Section A-Accelerators Spectrometers Detectors & Associated Equipment , 519, pp. 396-404 (2004)

ff. P. A. Seidl, J.-L. Vay, “Formation of High Charge State Heavy Ion Beams with Intense Space Charge,” Proc. 2011 Particle Accelerator Conference, New York, NY (2011) http://accelconf.web.cern.ch/AccelConf/PAC2011/papers/wep098.pdf

gg. Mikhail A. Dorf, Ronald C. Davidson, Edward A. Startsev and Hong Qin, “Adiabatic formation of a matched-beam distribution for an alternating-gradient quadrupole lattice,” Phys. Plasmas 16, 123107 (2009)

hh. Haber I, Bernal S, Kishek RA, O’Shea PG, Papadopoulos C, Reiser M, Feldman RB, Stratakis D, Walter M, Vay J-L, Friedman A, Grote DP. “Measurement and simulation of source-generated halos in the University of Maryland electron ring (UMER),” 2007 IEEE Particle Accelerator Conference. IEEE. pp. 3564-6. Piscataway, NJ, USA

ii. Seidl, P.A.; Baca, D.; Bieniosek F.; Cohen, R.; Friedman, A.; Grote, D.; Kireeff Covo, M.; Lund, S.M.; Molvik, A.W.; Vay, J.-L, “Electron and Gas Effects on Intense, Space-Charged Dominated Ion Beams in Magnetic Quadrupoles: Comparison of Experiments and Simulations,” 21st Biennial Particle Accelerator Conference, PAC05, Knoxville, TN, May 16-22, 2005 (Proceedings)

[15] Free electron lasers

jj. W.M. Fawley, J.-L. Vay, “Full Electromagnetic FEL Simulation via the Lorentz-Boosted Frame Transformation,” 32nd International Free Electron Laser Conference FEL, Malmo, Sweden (2010)

kk. W. M. Fawley, J.-L. Vay, “Full Electromagnetic Simulation of Free-Electron Laser Amplifier Physics via the Lorentz-Boosted Frame Approach,” Proc. 23rd Particle Accelerator Conference , Vancouver Canada, May 3-9, 2009, http://trshare.triumf.ca/~pac09proc/Proceedings/papers/we5rfp029.pdf

ll. W.M. Fawley, J.-L. Vay, “Use of the Lorentz-Boosted Frame Transformation to Simulate Free-Electron Laser Amplified Physics,” 13th Advanced Accelerator Concepts Workshop , Santa Cruz, CA, July 27-August 2, 2008, AIP Conference Proceedings , 1086 (2009) 346-50

[16] Coherent synchrotron radiation

mm. W. M. Fawley, J.-L. Vay, “Full Electromagnetic Simulation of Coherent Synchrotron Radiation via the Lorentz-Boosted Frame Approach,” Proc. 1st International Particle Accelerator Conference , Kyoto (2010), http://accelconf.web.cern.ch/AccelConf/IPAC10/papers/tupec064.pdf

[17] Field emission

nn. D. Mihalcea, L. Faillace, J. Hartzell, H. Panuganti, S. M. Boucher, A. Murokh, P. Piot, J. C. T. Thangaraj, “Ampere-Class Pulsed Field Emission from Carbon-Nanotube Cathodes in a Radiofrequency Resonator”, arXiv:1502.03040, submitted to Applied Physics Letters (2015).

oo. A. Seymour, D. Grote, D. Mihalcea, P. Piot, and J.-L. Vay, “Beam dynamics simulations of optically-enhanced field emission from structured cathodes”, Proceedings of the 16th Advanced Accelerator Concepts Workshop (AAC 2014), San Jose, CA, July 13-18

[18] Inverse Compton Scattering

a. D. J. Thornes, P. Piot, and I. Viti, “Electron-bunch shaping for coherent inverse Compton Scattering”, Proc. of IPAC2014, Dresden, Germany p. 107 (2014).