96     G a s , C h e m i c a l , a n d F r e e - E l e c t r o n L a s e r s                                         High-Power Fr ee-Electr on Lasers     97


                       5.  Benson, S., Beard, K., Biallas, G., Boyce, J., Bullard, D., Coleman, J., Douglas, D.,
                         et al., “High Power Operation of the JLab IR FEL Driver Accelerator,” Particle
                         Accelerator Conference (PAC 07), Albuquerque, New Mexico, June 25–29, 2007.
                       6.  McVey, B. D., “Three-dimensional simulations of free electron laser physics,”
                         Nucl. Inst. and Meth., A250: 449–455, 1986.
                       7.  Shinn, M., Behre, C., Benson, S., Douglas, D., Dylla, F., Gould, C., Gubeli, J.,
                         et al., “Xtreme Optics—The Behavior of Cavity Optics for the Jefferson Lab
                         Free Electron Laser,” Proceedings of the SPIE Boulder Damage Symposium
                         XXXVIII, SPIE 6403: 64030Y-1, 2006.
                       8.  Emma, P., “Commissioning Status of the LCLS X-Ray FEL,” Working Paper
                         TH3PBI01, Proceedings of the 2009 Particle Accelerator Conference, Vancouver,
                         2009.
                       9.  Sheffield, R. L., Nguyen, D. C., Goldstein, J. C., Ebrahim, N. A., Fortgang, C.
                         M., and Kinross-Wright, J. M., “Compact 1 kW Infrared Regenerative Amplifier
                         FEL,” Free-Electron Laser Challenges, P. G. O’Shea and H. E. Bennett, eds. Proc.
                         SPIE, 2988: 28–37, 1997.
                      10.  Carlsten, B. E., “New Photoelectric Injector Design for the Los Alamos National
                         Laboratory XUV FEL Accelerator,” Nucl. Instrum. Meth., A285: 313–319, 1989.
                      11.  O’Shea, P. G., Bender, S. C., Byrd, D. A., Early, J. W., Feldman, D. W., Fortgang,
                         C. M., Goldstein, J. C., et al., “Demonstration of Ultraviolet Lasing with a Low
                         Energy Electron Beam,” Nucl. Instrum. Meth., A341: 7–11, 1994.
                      12.  Schmerge, J. F., Reis, D. A., Hernandez, M., Meyerhofer, D. D., Miller, R. H.,
                         Palmer, D. T., Weaver, J. N., et al., “SLAC RF Photocathode Gun Test Facility,”
                         FEL Challenges, Proceedings of SPIE Conference, SPIE, San Jose, California,
                         February 13–14, 1997 (SPIE 2988: 90–96).
                      13.  Gavrilov, N. G., Gorniker, E. I., Kayran, D. A., Kulipanov, G. N., Kuptsov, I. V.,
                         Kurkin, G. Y., Kolobanov, E. I., et al., “Status of the Novosibirsk High Power
                         Free Electron Laser Project,” FEL Challenges, Proceedings of SPIE Conference,
                         San Jose, CA, February 13–14, 1997 (SPIE 2988: 185–187).
                      14.  Dowell, D. H., Bethel, S. Z., and Friddell, K. D., “Results from the High Average
                         Power Laser Experiment Photocathode Injector Test,” Nucl. Instrum. Meth.
                         A356: 167–176, 1995.
                      15.  Hernandez-Garcia, C., O’Shea, P., and Sutzman, M., “Electron Sources for
                         Accelerators,” Physics Today, 61: 44, 2008.
                      16.  Kong, S. H., Kinross-Wright, J., Nguyen, D. C., and Sheffield, R. L., “Photocathodes
                         for Free Electron Lasers,” Nucl. Instrum. Meth., A358: 272–275, 1995.
                      17.  Michelato, P., “Photocathodes for RF Photoinjectors,” Nucl. Instrum. Meth.,
                         A393: 455–459, 1997.
                      18.  Michalke, A., Piel, H., Sinclair, C. K., Michelato, P., Pagani, C., Serafini, L.,
                         and Peiniger, M., “Photocathodes Inside Superconducting Cavities,” Fifth
                         Workshop on RF Superconductivity, Hamburg, Germany, 1991.
                      19.  Krafft, G., and Bisognano, J., “On Using a Superconducting Linac to Drive a
                         Short Wavelength FEL” Proc. 1989 Particle Accelerator Conference, 1256, 1989.
                      20.  Neil, G. R., “Frontier Accelerator Technologies,” Eighth International Topical
                         Meeting on Nuclear Applications and Utilization of Accelerators (AccApp’07),
                         Pocatello, Idaho, July 30–August 2, 2007.
                      21.  Deacon, D. A. G., Elias, L. R., Madey, J. M. J., Ramian, G. J., Schwettman, H. A.,
                         and Smith, T. I., “First Operation of a Free-Electron Laser,” Phys. Rev. Lett., 38:
                         892–894, 1977.
                      22.  Edighoffer, J. A., Neil, G. R., Hess, C. E., Smith, T. I., Fornaca, S. W., and
                         Schwettman, H. A., “Variable-Wiggler Free-Electron-Laser Oscillation,” Phys.
                         Rev. Lett., 52: 344–347, 1984.
                      23.  Edighoffer,  J. A.,  Neil,  G.  R.,  Fornaca,  S.,  Thompson,  H.  R.,  Smith,  T.  I.,
                         Schwettman, H. A., et al., “Visible free-electron-laser oscillator (constant and
                         tapered wiggler),” Appl. Phys. Lett., 52: 1569–1570, 1988.
                      24.  Halbach, K., “Design of Permanent Multipole Magnets with Oriented Rare
                         Earth Cobalt Material,” Nucl. Instrum. Meth., 169: 1–10, 1980.
                      25.  Couprie, M. E., Garzella, D., and Billardon, M., “Optical Cavities for UV Free
                         Electron Lasers,” Nucl. Instrum. Meth., A358: 382–386, 1995.