Bibliography on Computer Codes in Accelerator Physics

Bibliography on Computer Codes in Accelerator Physics

Reviews of Codes

1
N. Malitsky, A. Reshetov and G. Bourianoff, PAC++: object oriented platform for accelerator codes, Tech. Rep. SSCL-675, Superconducting Super Collider Lab., Waxahachie, TX, USA (June 1994).

2
P. Chevtsov, Y. Isaev, A. Sokolov, A. Samoilov, B. Volkov and S. Vorozhsov, Computer codes in accelerator domain, DESY Internal Report M-92-07, Deutsches Elektronen-Synchrotron, Hamburg, Germany (November 1992).

3
Los Alamos Accelerator Code Group, Computer codes for particle accelerator design and analysis: a compendium, Tech. Rep. LA-UR-90-1766, Los Alamos National Lab., Los Alamos, NM, USA (May 1990), second edition, revised and expanded.

4
J. Milutinovic and A. G. Ruggiero, Comparison of accelerator codes for a RHIC lattice, Tech. Rep. BNL-41867, Brookhaven National Lab., Upton, NY, USA (March 1989), in Proc. IEEE Particle Accelerator Conference, Chicago, 1989, edited by F. Bennett and J. Kopta, (IEEE, Piscataway, NJ, 1989), pp. 1373-1375, (IEEE Conference Record 89CH2669-0).

5
K. R. Eppley, The use of electromagnetic particle-in-cell codes in accelerator applications, Preprint SLAC-PUB-4812, Stanford Linear Accelerator Center, Stanford, CA, USA (December 1988), in Proc. Linear Accelerator Conference, Williamsburg, 1988, edited by C. W. Leeman, (CEBAF, Jefferson Lab., Newport News, VA, 1988).

6
Los Alamos Accelerator Code Group, A compendium of computer codes used in particle accelerator design and analysis, in Month and Dienes [135], pp. 1137-1326.

7
R. K. Cooper and M. E. Jones, The physics of codes, in Month and Dienes [135], pp. 1084-1105.

8
E. Keil and K. H. Reich, Computer programs for lattice calculations, in Busse and Zelazny [136], pp. 273-274.

9
E. Keil, Computer programs in accelerator physics, CERN Yellow Report 84-01, European Lab. for Particle Physics, Geneva, Switzerland (February 1984), in Proc. SLAC Summer School on the Physics of High-Energy Particle Accelerators, Stanford, 1982, edited by M. Month, (American Institute of Physics, New York, 1983), no. 105 in AIP Conference Proceedings, p. 651.

10
D. C. Carey and F. C. Iselin, A standard input language for particle beam and accelerator computer programs, Tech. Rep. CERN LEP-TH/84-10, European Lab. for Particle Physics, Geneva, Switzerland (June 1984), in Proc. Summer Study on Design and Utilization of the SSC, Snowmass, 1984, edited by R. Donaldson and J. G. Morfin, (Fermi National Accelerator Lab., Batavia, IL, 1985), p. 389.

Specific Codes

11
R. Assmann, C. Adolphsen, K. Bane, P. Emma, T. O. Raubenheimer, R. Siemann, K. Thompson and F. Zimmermann, The computer program LIAR for the simulation and modeling of high performance linacs, Preprint SLAC-PUB-7577, Stanford Linear Accelerator Center, Stanford, CA, USA (July 1997), in Proc. 17th IEEE Particle Accelerator Conference, Vancouver, BC, Canada, 12-16 May 1997, (IEEE, Piscataway, NJ, 1998), (to be published).

12
X. S. Mao, K. R. Kase, J.-C. Liu, W. R. Nelson, J. H. Kleck and S. Johnsen, Neutron sources in the VARIAN CLINAC 2100C/2300C medical accelerator calculated by the EGS4 code, Preprint SLAC-PUB-7077, Stanford Linear Accelerator Center, Stanford, CA, USA (June 1996), Health Phys. 72, 524-529 (1997).

13
M. Zhang, Beam dynamics of the DESY FEL photoinjector simulated with MAFIA and PARMELA, Tech. Rep. DESY-TESLA-FEL-97-06N, Deutsches Elektronen-Synchrotron, Hamburg, Germany (October 1997).

14
F. C. Iselin, The CLASSIC project, Tech. Rep. CERN SL-96-61-AP, European Lab. for Particle Physics, Geneva, Switzerland (September 1996), in Proc. Computational Accelerator Physics Conference, Williamsburg, 1996, edited by J. J. Bisognano and A. A. Mondelli, (American Institute of Physics, New York, 1997), no. 391 in AIP Conference Proceedings, pp. 325-330.

15
J. S. Berg, Documentation for VLASOV, version 0.1, Technical Note SLAC-TN-96-1, Stanford Linear Accelerator Center, Stanford, CA, USA (March 1996).

16
A. Djaoui, A user guide for the laser plasma simulation code: MED103, Tech. Rep. RAL-TR-96-099, Rutherford Appleton Lab., Chilton, Didcot, Oxon., UK (December 1996).

17
F. C. Iselin, The CLASSIC project, Tech. Rep. CERN SL-96-61-AP, European Lab. for Particle Physics, Geneva, Switzerland (September 1996), Part. Accel. 55, 99-105 (1996).

18
R. Assmann, C. Adolphsen, K. Bane, T. O. Raubenheimer, R. Siemann and K. Thompson, LIAR: a new program for the modeling and simulation of linear accelerators with high gradients and small emittances, Preprint SLAC-PUB-7300, Stanford Linear Accelerator Center, Stanford, CA, USA (September 1996), in Proc. International Linear Accelerator Conference, Geneva, 1996, edited by C. Hill and M. Vretenar, (European Lab. for Particle Physics, Geneva, Switzerland, 1996), no. 96-07 in CERN Yellow Report, pp. 464-466.

19
O. S. Brüning, ZBASE user's guide version 1.1: an impedance data base program, Tech. Rep. CERN SL-96-069-AP, European Lab. for Particle Physics, Geneva, Switzerland (November 1996).

20
F. C. Iselin and F. Ruggiero, A modified version of the program MAD to improve the efficiency of tracking studies, Tech. Rep. CERN SL-96-011-AP, European Lab. for Particle Physics, Geneva, Switzerland (April 1996).

21
P. Lapostolle, E. Tanke and S. Valero, A linac generator program as preprocessor for the simulation code DYNAC, Tech. Rep. CERN PS-96-054, European Lab. for Particle Physics, Geneva, Switzerland (1996).

22
S. Russenschuck, C. Paul and K. Preis, ROXIE: a feature based design and optimization program for superconducting accelerator magnets, CERN LHC Project Report 46, European Lab. for Particle Physics, Geneva, Switzerland (September 1996), submitted to Int. J. Appl. Electromagn. Mech.

23
D. C. Carey, K. L. Brown and F. Rothacker, Third order TRANSPORT: a computer program for designing charged particle beam transport systems, Report SLAC-R-0462, Stanford Linear Accelerator Center, Stanford, CA, USA (May 1995).

24
A. Gallo, F. Marcellini and M. Migliorati, Implementation of the fast RF feedback on the DAPHNE beam longitudinal dynamics simulation code, Nucl. Instrum. Methods A359, 445-450 (1995).

25
J.-Q. Lu, LEADS: a graphical display computer program for linear and electrostatic accelerator beam dynamics simulation, Nucl. Instrum. Methods A355, 253-257 (1995).

26
S. Russenschuck, A computer program for the design of superconducting accelerator magnets, Tech. Rep. CERN AT-95-39-MA, European Lab. for Particle Physics, Geneva, Switzerland (September 1995), in Proc. Annual Review of Progress in Applied Computational Electromagnetics, Monterey, 1995 (1995), (to be published).

27
U. Becker, T. Weiland, M. Dohlus, S. Lutgert and D. Sprehn, Comparison of CONDOR, FCI and MAFIA calculations for a 150-MW S-band klystron with measurements, DESY Internal Report M-95-08J, Deutsches Elektronen-Synchrotron, Hamburg, Germany (June 1995), in PAC 95 and IUPAP [137], pp. 2190-2192, (IEEE Conference Record 95CH35843).

28
P. G. Bricault and H. R. Schneider, Simulation of the TRIUMF split ring 4 rod RFQ with MAFIA, Tech. Rep. TRI-PP-95-23, TRIUMF, TRI Univ. Meson Facility, Vancouver, BC, Canada (June 1995), in PAC 95 and IUPAP [137], pp. 1125-1127, (IEEE Conference Record 95CH35843).

29
E. Karantzoulis, OPTICS: an optics measurement and correction program for ELETTRA, in Proc. European Particle Accelerator Conference, London, 1994, edited by V. Suller and C. Petit-Jean-Genaz, (World Scientific, Singapore, 1994), pp. 1012-1014.

30
T. Kato, Beam simulation code using accurate gap field distributions in a drift tube linac, KEK Preprint 94-84, National Lab. for High Energy Physics, Tsukuba, Japan (September 1994), in Proc. International Linear Accelerator Conference, Tsukuba, 1994, edited by K. Takata, Y. Yamazaki and K. Nakahara, (KEK, National Lab. for High Energy Physics, Tsukuba, Japan, 1994).

31
Z. D. Farkas and T. Weiland, TW parameters from MAFIA solutions, Tech. Rep. SLAC-AAS-Note-87, Stanford Linear Accelerator Center, Stanford, CA, USA (December 1994).

32
L. G. Vorobev, Two-dimensional particle code for beam simulation in HIF driver, Tech. Rep. ITEP-22-94, Inst. of Theoretic and Experimental Physics, Moscow, Russia (March 1994).

33
E. D. Courant, A spin tracking program for siberian snakes, Tech. Rep. BNL-60457, Brookhaven National Lab., Upton, NY, USA (May 1994).

34
A. Millich, CLIC transfer structure (CTS) simulations using `MAFIA', Tech. Rep. CERN SL-93-20G-DI, European Lab. for Particle Physics, Geneva, Switzerland (May 1993), in Corneliussen [138], pp. 965-967, (IEEE Conference Record 93CH327927).

35
T. A. Jones, A. D. Yeremian and R. H. Miller, Parametric studies with PARMELA to improve SLC performance, Preprint SLAC-PUB-6088, Stanford Linear Accelerator Center, Stanford, CA, USA (March 1993), in Corneliussen [138], pp. 3063-3065, (IEEE Conference Record 93CH327927).

36
J. Utterback, WINDOWORKS: a flexible program for computerized testing of accelerator control system electronic circuit boards, Fermilab Proceedings FERMILAB-Conf-93-281, Fermi National Accelerator Lab., Batavia, IL, USA (September 1993), in Corneliussen [138], pp. 1931-1933, (IEEE Conference Record 93CH327927).

37
K. Yoshino, T. Kato, A. Ueno and Y. Yamazaki, Design of MEBT short Q magnets with large bores using MAFIA for the JHP proton linac, KEK Preprint 93-87, National Lab. for High Energy Physics, Tsukuba, Japan (August 1993), in Proc. Symposium on Accelerator Science and Technology, Tsukuba, 1993, (KEK, National Lab. for High Energy Physics, Tsukuba, Japan, 1993), pp. 282-284.

38
F.-H. Wang and N.-F. Mao, Beamline error analysis, position correction, and graphic processing, Tech. Rep. SSCL-654, Superconducting Super Collider Lab., Waxahachie, TX, USA (November 1993).

39
V. Thiagarajan, T. Barts, S. Kurennoy and W. Chou, Calculation of the coupling impedances of holes and slots on the liner using MAFIA and scaling, Tech. Rep. SSCL-650, Superconducting Super Collider Lab., Waxahachie, TX, USA (November 1993).

40
W. Innes, TRACKERR: a program for calculating tracking errors, Tech. Rep. SLAC-BABAR-Note-121, Stanford Linear Accelerator Center, Stanford, CA, USA (November 1993).

41
H. Liu, Analysis of space charge calculation in PARMELA and its application to the CEBAF FEL injector design, Tech. Rep. CEBAF-PR-93-008, Jefferson Lab., Newport News, VA, USA (April 1993), in Ryne [139], pp. 508-515.

42
S. Machida, The SIMPSONS program: 6-D phase space tracking with acceleration, Tech. Rep. SSCL-Preprint-197, Superconducting Super Collider Lab., Waxahachie, TX, USA (February 1993), in Ryne [139], pp. 459-466.

43
H. Liu, Numerical simulations at CEBAF using PARMELA, Tech. Rep. CEBAF-PR-93-006, Jefferson Lab., Newport News, VA, USA (April 1993), in Ryne [139], pp. 385-392.

44
A. Millich, Simulation of the CLIC transfer structure by means of MAFIA, Tech. Rep. CERN SL-93-18-CO, European Lab. for Particle Physics, Geneva, Switzerland (March 1993), in Ryne [139], pp. 35-42.

45
W. Chou and T. Barts, Wake field and impedance studies of a liner using MAFIA, Tech. Rep. SSCL-Preprint-204, Superconducting Super Collider Lab., Waxahachie, TX, USA (March 1993), in Ryne [139], pp. 107-114.

46
M. Canali and L. Rossi, DYNQUE: a computer code for quench simulation in adiabatic multicoil superconducting solenoids, Tech. Rep. INFN-TC-93-06, INFN Milan and Milan Univ., Milano, Italy (June 1993).

47
S. Lutgert, MAFIA simulations of the multicell RF gun for the CLIC test facility, Tech. Rep. CERN PS-93-27-RF, European Lab. for Particle Physics, Geneva, Switzerland (July 1993).

48
D. P. Barber, M. Boege and E. Gianfelice, Electron spin tracking for HERA-e with the Monte Carlo program SITROS, in Proc. International Conference on High-Energy Accelerators, Hamburg, 1992, edited by J. Rossbach, (World Scientific, Singapore, 1993), vol. A2 of Int. J. Mod. Phys. (Proc. Suppl.), pp. 1088-1090.

49
R. K. Cooper and R. D. Ryne, Recent activities in accelerator code development, Tech. Rep. LA-UR-92-2174, Los Alamos National Lab., Los Alamos, NM, USA (1992), in Proc. Workshop on Advanced Accelerator Concepts, Port Jefferson, 1992, edited by J. S. Wurtele, (American Institute of Physics, New York, 1993), no. 279 in AIP Conference Proceedings.

50
R. K. Cooper, Release notes for POISSON/SUPERFISH 4.0, Tech. Rep. LA-UR-92-3397, Los Alamos National Lab., Los Alamos, NM, USA (1992).

51
T. Barts and J. Merson, Users' notes for POISSON/SUPERFISH: release 3.0, Tech. Rep. LA-UR-91-4140, Los Alamos National Lab., Los Alamos, NM, USA (February 1992).

52
J. R. Houston, X-Y spatial distribution experiments with PARMELA or, what I did on my summer vacation, Accelerator Physics Note SLAC-AP-91, Stanford Linear Accelerator Center, Stanford, CA, USA (August 1991).

53
D. Nolle, FELS: a three-dimensional FEL simulation code including storage ring operation of high gain FELs, Tech. Rep. DELTA-91-10, Dortmund Univ., Dortmund, Germany (July 1991), in Proc. International FEL Conference, Santa Fe, 1991, edited by R. Montoya, (Los Alamos National Lab., Los Alamos, NM, 1991).

54
L. R. Turner and L. Kettunen, A new three-D integral code for computation of accelerator magnets, Tech. Rep. ANL-CP-73093, Argonne National Lab., Argonne, IL, USA (May 1991), in Proc. IEEE Particle Accelerator Conference, San Francisco, 1991, edited by L. Lizama and J. Chew, (IEEE, Piscataway, NJ, 1991), pp. 2140-2142, (IEEE Conference Record 91CH3038-7).

55
D. Nolle, FELS: user's guide to a 3-D free electron laser simulation code, Tech. Rep. DELTA-91-09, Dortmund Univ., Dortmund, Germany (July 1991).

56
H. Grote and F. C. Iselin, The MAD program (Methodical Accelerator Design) version 8.4: user's reference manual, Tech. Rep. CERN SL-90-13-AP Rev. 2, European Lab. for Particle Physics, Geneva, Switzerland (August 1991), revised version.

57
X. Artru, A simulation code for channeling radiation by ultrarelativistic electrons or positrons, Nucl. Instrum. Methods B48, 278-282 (1990).

58
F. Ebeling, P. Schuett and T. Weiland, Beam dynamic studies with the MAFIA module TS2, DESY Internal Report M-90-05-E, Deutsches Elektronen-Synchrotron, Hamburg, Germany (1990), in Martin and Mandrillon [140], pp. 1702-1704.

59
G. L. Meur and F. Touze, PRIAM: a self-consistent finite element code for particle simulation in electromagnetic fields, Report LAL-RT-90-07, Laboratoire de l'Accélérateur Linéaire, Orsay, France (June 1990), in Martin and Mandrillon [140], pp. 1693-1695.

60
B. Bowling, J. Kewisch, P. Kloeppel and R. Rossmanith, A fast optics and orbit correction program, Tech. Rep. CEBAF-PR-90-010, Jefferson Lab., Newport News, VA, USA (August 1990), in Martin and Mandrillon [140], pp. 1452-1454.

61
M. Bartsch, M. Dehler, M. Dohlus, A. Fischerauer, G. Fischerauer, P. Hahne, R. Klatt, F. Krawczyk, T. Proepper, P. Schuett, T. Weiland, Z. Min, F. Ebeling, M. Marx, S. G. Wipf and B. Steffen, MAFIA release 3: the new version of the general purpose electromagnetic design code family, DESY Internal Report M-90-05K, Deutsches Elektronen-Synchrotron, Hamburg, Germany (1990).

62
E. U. Haebel and J. McGill, Calculating the standing wave ratio of a passive, loss free microwave junction using SUPERFISH, Tech. Rep. CERN AT-RF-90-23, European Lab. for Particle Physics, Geneva, Switzerland (December 1990).

63
M. J. Browman and L. M. Young, A study of coupled radio-frequency quadrupoles using the MAFIA codes, Tech. Rep. AT-6: ATN-90-3, Los Alamos National Lab., Los Alamos, NM, USA (June 1990).

64
M. Dehler, M. Dohlus, A. Fischerauer, G. Fischerauer, P. Hahne, R. Klatt, F. Krawczyk, T. Propper, P. Schütt, T. Weiland, F. Ebeling, M. Marx, S. G. Wipf, B. Steffen, T. Barts, J. Browman, R. K. Copper, G. Rodenz and D. Rusthoi, Status and future of the 3-D MAFIA group of codes, DESY Internal Report M-89-23, Deutsches Elektronen-Synchrotron, Hamburg, Germany (October 1989), in Proc. COMPUMAG Conference on the Computation of Electromagnetic Fields, Tokyo, 1989, (IEEE, New York, 1990), vol. 26 of IEEE Trans. Magn., pp. 751-754.

65
P. A. Rodgers, A. M. Rogoyski and S. J. Rose, MED101: a laser plasma simulation code. User guide, Tech. Rep. RAL-89-127, Rutherford Appleton Lab., Chilton, Didcot, Oxon., UK (December 1989).

66
T. Kageyama, A simple method using MAFIA to calculate external Q values of waveguide loaded cavities, Tech. Rep. KEK-89-4, National Lab. for High Energy Physics, Tsukuba, Japan (June 1989).

67
B. Zotter, BBI: a program to compute bunched beam instabilities in high-energy particle accelerators and storage rings, Tech. Rep. CERN LEP-TH-89-74, European Lab. for Particle Physics, Geneva, Switzerland (December 1989).

68
N. M. Kroll, Application of the MAFIA program for the determination of Q's and resonant frequencies for cavities with heavy external loading, Tech. Rep. SLAC-AAS-43, Stanford Linear Accelerator Center, Stanford, CA, USA (December 1988).

69
W. B. Herrmannsfeldt, EGUN: an electron optics and gun design program, Tech. Rep. SLAC-0331, Stanford Linear Accelerator Center, Stanford, CA, USA (October 1988), supersedes SLAC-0051, SLAC-0166, and SLAC-0226.

70
K. Hirata, An introduction to SAD, in Proc. Advanced ICFA Beam Dynamics Workshop, Lugano, 1988, edited by J. Hagel and E. Keil, (European Lab. for Particle Physics, Geneva, Switzerland, 1988), no. 88-04 in CERN Yellow Report, pp. 62-65.

71
F. Ebeling, R. Klatt, F. Krawczyk, E. Lawinsky, T. Weiland, S. G. Wipf, B. Steffen, T. Barts, J. Browman, R. K. Cooper and G. Rodenz, Status and future of the 3-D MAFIA group of codes, DESY Internal Report M-88-15, Deutsches Elektronen-Synchrotron, Hamburg, Germany (December 1988), in Eminhizer [141], p. 117.

72
K. R. Crandall and T. P. Wangler, PARMTEQ: a beam dynamics code for the RFQ linear accelerator, in Eminhizer [141], pp. 22-28.

73
S. R. Koscielniak, The LONG1D simulation code, Tech. Rep. TRI-PP-88-41, TRIUMF, TRI Univ. Meson Facility, Vancouver, BC, Canada (June 1988), in Proc. European Particle Accelerator Conference, Rome, 1988, edited by S. Tazzari, (World Scientific, Singapore, 1989).

74
T. Weiland, Solving Maxwell's equations by means of the MAFIA CAD system, DESY Internal Report M-88-11, Deutsches Elektronen-Synchrotron, Hamburg, Germany (October 1988), submitted to Beijing International Symposium on Electromagnetic Fields in Electrical Engineering (BISEF 88), Beijing, China, 19-21 October 1988.

75
T. Garvey, Computational studies of the CLIC transfer structure using the 3-D MAFIA codes, CERN CLIC Note 57, European Lab. for Particle Physics, Geneva, Switzerland (February 1988).

76
F. C. Iselin and J. Niederer, The MAD program (Methodical Accelerator Design): version 7.2-user's reference manual, Tech. Rep. CERN LEP-TH/88-38, European Lab. for Particle Physics, Geneva, Switzerland (July 1988), revised version.

77
K. Yokoya, Computer simulation code for beam-beam interaction in linear colliders, Tech. Rep. SLAC-AAS-27, Stanford Linear Accelerator Center, Stanford, CA, USA (1987).

78
J. W. Poukey and R. W. Stinnett, Trajectory code studies of the DELPHI accelerator, Tech. Rep. SAND-87-1886C, Sandia National Labs., Albuquerque, NM, USA (1987).

79
L. Schachinger and R. Talman, TEAPOT: a thin element accelerator program for optics and tracking, Tech. Rep. SSC-52, Superconducting Super Collider Lab., Waxahachie, TX, USA (December 1985), Part. Accel. 22, 35 (1987).

80
A. Dubrovin and J.-P. Coulon, Lasertron computer simulation at Orsay: `RING' code, in Proc. Workshop on New Developments in Particle Acceleration Techniques, Orsay, 1987, edited by S. Turner, (European Lab. for Particle Physics, Geneva, Switzerland, 1987), no. 87-11 in CERN Yellow Report, pp. 259-263.

81
Los Alamos Accelerator Code Group, User's guide for the POISSON/SUPERFISH group of codes, Tech. Rep. LA-UR-87-115, Los Alamos National Lab., Los Alamos, NM, USA (January 1987).

82
F. Krawczyk and T. Weiland, A new static field solver with open boundary conditions in the 3-D CAD system MAFIA, DESY Internal Report M-87-14, Deutsches Elektronen-Synchrotron, Hamburg, Germany (September 1987), submitted to IEEE, Sixth COMPUMAG Conference, Graz, Austria, 25-28 August 1987.

83
F. C. Iselin, E. Keil, J. Niederer and J. M. Veuillen, The MAD program (Methodical Accelerator Design): version 6-programmer's reference manual, Tech. Rep. CERN LEP-TH/87-60, European Lab. for Particle Physics, Geneva, Switzerland (December 1987).

84
F. C. Iselin and J. Niederer, The MAD program: (Methodical Accelerator Design). Version 6. User's reference manual, Tech. Rep. CERN/LEP-TH/87-33, European Lab. for Particle Physics, Geneva, Switzerland (April 1987).

85
Z. Parsa and E. Courant, Guide to accelerator physics program SYNCH: VAX version 1987. 2, Tech. Rep. BNL-39651, Brookhaven National Lab., Upton, NY, USA (January 1987).

86
R. Klatt, F. Krawczyk, W. R. Novender, C. Palm, T. Weiland, B. Steffen, T. Barts, M. J. Browman, R. Cooper, C. T. Mottershead, G. Rodenz and S. G. Wipf, MAFIA-a three-dimensional electromagnetic CAD system for magnets, RF structures, and transient wake field calculations, in Proc. Linear Accelerator Conference, Stanford, 1986, (Stanford Linear Accelerator Center, Stanford, 1986), no. 303 in SLAC Report, pp. 276-278.

87
F. C. Iselin and E. Keil, Thin elements in MAD, Tech. Rep. CERN LEP-TH/86-07, European Lab. for Particle Physics, Geneva, Switzerland (February 1986).

88
R. P. Johnson and F. Willeke, TOM: a program for interactive lattice design, Tech. Rep. FERMILAB-TM-1331, Fermi National Accelerator Lab., Batavia, IL, USA (June 1985), in Proc. IEEE Particle Accelerator Conference, Vancouver, 1985, edited by A. Strathdee, (IEEE, New York, 1985), vol. NS-32 of IEEE Trans. Nucl. Sci., p. 1681.

89
F. C. Iselin, Lie transformations and transport equations for combined function dipoles, Tech. Rep. CERN LEP-TH/84-17, European Lab. for Particle Physics, Geneva, Switzerland (October 1984), Part. Accel. 17, 143-155 (1985).

90
K. Yokoya, A computer simulation code for the beam-beam interaction in linear colliders, Tech. Rep. KEK-Report-85-9, National Lab. for High Energy Physics, Tsukuba, Japan (October 1985).

91
A. J. Dragt, L. M. Healy, F. Neri, R. D. Ryne, D. R. Douglas and E. Forest, MARYLIE 3.0: a program for nonlinear analysis of accelerator and beam line lattices, IEEE Trans. Nucl. Sci. NS-32, 2311-2313 (1985).

92
G. Ripken, Nonlinear canonical equations of coupled synchrobetatron motion and their solution within the framework of a nonlinear six-dimensional (symplectic) tracking program for ultrarelativistic protons, DESY Report 85/084, Deutsches Elektronen-Synchrotron, Hamburg, Germany (August 1985).

93
E. Nordmark, The MAD program (Methodical Accelerator Design): chapter on error definitions. Reference manual, Tech. Rep. CERN LEP-TH-85-38, European Lab. for Particle Physics, Geneva, Switzerland (October 1985).

94
F. C. Iselin, The MAD program (Methodical Accelerator Design): reference manual, Tech. Rep. CERN LEP-TH/85-15, European Lab. for Particle Physics, Geneva, Switzerland (May 1985).

95
F. C. Iselin, E. Keil and J. Niederer, The new MAD: a software tool kit for designing accelerators, Tech. Rep. CERN LEP-TH/85-25, European Lab. for Particle Physics, Geneva, Switzerland (June 1985), in Proc. Conference on Computing in High-Energy Physics, Amsterdam, 1985, edited by L. O. Hertzberger and W. Hoogland, (North-Holland, Amsterdam, 1986), p. 316.

96
J. A. MacLachlan, ESME: longitudinal phase space particle tracking: program documentation, Tech. Rep. FERMILAB-TM-1274, Fermi National Accelerator Lab., Batavia, IL, USA (May 1984).

97
D. P. Barber, H. Mais and G. Ripken, Conversion of the thin lens $8\times 8$ matrix formalism of the spin orbit coupling (SLIM) to a formalism using dispersion, DESY Internal Report M-84-17, Deutsches Elektronen-Synchrotron, Hamburg, Germany (1984).

98
A. Wrulich, RACETRACK: a computer code for the simulation of nonlinear particle motion in accelerators, DESY Report 84/026, Deutsches Elektronen-Synchrotron, Hamburg, Germany (March 1984).

99
W. Lysenko, An RFQ simulation code, Tech. Rep. LA-UR-84-1343, Los Alamos National Lab., Los Alamos, NM, USA (May 1984), in Angert [142].

100
K. R. Crandall and D. P. Rusthoi, TRACE: an interactive beam transport code, Tech. Rep. LA-UR-84-1282, Los Alamos National Lab., Los Alamos, NM, USA (April 1984), in Angert [142], p. 371.

101
D. Brandt, SIMTRAC: a simulation program for tracking longitudinal and transverse single bunch effects, CERN LEP Note 512, European Lab. for Particle Physics, Geneva, Switzerland (July 1984).

102
E. Habel, P. Marchand and J. Tuckmantel, On the calculation of beam tube propagation of cavity modes from SUPERFISH or URMEL, Tech. Rep. CERN EF-RF-84-1, European Lab. for Particle Physics, Geneva, Switzerland (March 1984).

103
J. Niederer, Tracking and computing, in Proc. SSC Workshop on Accelerator Physics Issues for a Superconducting Super Collider, Ann Arbor, 1983, edited by M. Tigner, (Michigan Univ. Physics Dept., MI, USA, 1983), no. UM-HE-84-1 in Michigan Univ. Internal Report, pp. 144-146.

104
T. Higo, Calculation of the TE0 mode by the extended version of SUPERFISH, Tech. Rep. KEK-83-20, National Lab. for High Energy Physics, Tsukuba, Japan (December 1983).

105
S. O. Schriber, ZEBRA: the first stage of an accelerator breeder program, Tech. Rep. INIS-mf-9427, Chalk River Nuclear Labs., Chalk River, ON, Canada (September 1983).

106
J. Kewisch, Simulation of electron spin depolarization with the computer code SITROS, DESY Report 83/032, Deutsches Elektronen-Synchrotron, Hamburg, Germany (May 1983).

107
M. Gygi-Hanney, A. Hofmann, K. Hübner and B. Zotter, Program BBI: bunched beam instabilities in high-energy storage rings, Tech. Rep. CERN/LEP-TH/83-2, European Lab. for Particle Physics, Geneva, Switzerland (January 1983).

108
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F. Ruggiero
1998-04-07