Bibliography. Bibliography. L. L. Alston (Ed.), High Voltage Technology, Oxford University Press, Oxford, 1968.
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1 Bibliography L. L. Alston (Ed.), High Voltage Technology, Oxford University Press, Oxford, R. Bakish, Introduction to Electron Beam Technology, Wiley, New York, A. P. Banford, The Transport of Charged Particle Beams, Spon, London, A. H. W. Beck, Space Charge Waves and Slow Electromagnetic Waves, Pergamon Press, London, M. Y. Bernard, Particles and Fields: Fundamental Equations, in A. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New York, P.Bonjour, Numerical Methods for Computing Electrostatic and Magnetic Fields, in A. Septier, Ed., Applied Charged Particle Optics, Part A, Academic, New York, M. Born and E. Wolf, Principles of Optics, Pergamon Press, Oxford, D.Boussard, Focusing in Linear Accelerators, in A. Septier, Ed., Focusing of Charged Particles, Vol. 2, Academic, New York, H. Brechner, Superconducting Magnet Systems, Springer-Verlag, Berlin, L. Brillouin, Wave Propagation in Periodic Structures, Dover, New York, G. Brewer, Ion Propulsion - Technology and Applications, Gordon and Breach, New York, H. Bruck, Accelerateurs Circulaires de Particules, Presses Universitaires de France, Paris, R. A. Carrigen, F. P. Huson, and M. Month, Summer School on High Energy Particle Accelerators, American Institute of Physics, New York, J. D. Cobine, Gaseous Conductors, Dover, New York,
2 R. E. Collin, Foundations for Microwave Engineering, McGraw-Hill, New York, T. Collins, Concepts in the Design of Circular Accelerators, inphysics of High Energy Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, J.S. Colonias, Particle Accelerator Design - Computer Programs, Academic, New York, V.E. Coslett, Introduction to Electron Optics, Oxford University Press, Oxford, P. Dahl, Introduction to Electron and Ion Optics, Academic, New York, 1973 H.A. Enge, Deflecting Magnets, in A. Septier, Ed., Focusing of Charged Particles, Vol. 2, Academic, New York, C.Fert and P. Durandeau, Magnetic Electron Lenses, in A. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New York, J.F. Francis, High Voltage Pulse Techniques, Air Force Office of Scientific Research, AFOSR , J. C. Francken, Analogical Methods for Resolving Laplace's and Poisson's Equation, ina. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New York, A.Galejs and P. H. Rose, Optics of Electrostatic Accelerator Tubes, in A. Septier, Ed., Focusing of Charged Particles, Vol. 2, Academic, New York, C. Germain, Measurement of Magnetic Fields, in A. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New York, G. N. Glasoe and J. V. Lebacqz, Pulse Generators, Dover, New York, M. Goldsmith, Europe's Giant Accelerator, the Story of the CERN 400 GeV Proton Synchrotron, Taylor and Francis, London, H. Goldstein, Classical Mechanics, Addison-Wesley, Reading, Mass., P. Grivet and A. Septier, Electron Optics, Pergamon Press, Oxford, K. J. Hanszen and R. Lauer, Electrostatic Lenses, in A. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New'York,
3 E. Harting and F. H. Read, Electrostatic Lenses, Elsevier, Amsterdam, W.V. Hassenzahl, R. B. Meuser, and C. Taylor, The Technology of Superconducting Accelerator Dipoles, inphysics of High Energy Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, P. W. Hawkes, Electron Optics and Electron Microscopy, Taylor and Francis, London, P. W. Hawkes (Ed.), Magnetic Electron Lens Properties, Springer-Verlag, Berlin, P.W. Hawkes, Methods of Computing Optical Properties and Combating Aberrations for Low-Intensity Beams, in A. Septier, Ed., Applied Charged Particle Optics, Part A, Academic, New York, P. W. Hawkes, Quadrupoles in Electron Lens Design, Academic, New York, P. W. Hawkes, Quadrupole Qptics, Springer-Verlag, Berlin, R. Hutter, Beams with Space-charge, in A. Septier, Ed., Focusing of Charged Particles, Vol. 2, Academic, New York, J. D. Jackson, Classical Electrodynamics, Wiley, New York, I. M. Kapchinskii, Dynamics in Linear Resonance Accelerators, Atomizdat, Moscow, S. P. Kapitza and V. N. Melekhin, The Microtron, Harwood Academic, New York, (I. N. Sviatoslavsky (trans.)) E. Keil, Computer Programs in Accelerator Physics, inphysics of High Energy Particle Accelerators (SLAC Summer -School, 1982), American Institute of Physics, New York, O. Klemperer and M. E. Barnett, Electron Optics, Cambridge University Press, London, A. A. Kolomensky and A. N. Lebedev, Theory of Cyclic Accelerators (trans. from Russian by M. Barbier), North-Holland, Amsterdam, R. Kollath (Ed.), Particle Accelerators (trans. from 2nd German edition by W. Summer), Pittman and Sons, London, P. M. Lapostolle and A. Septier (Eds.), Linear Accelerators, North Holland, Amsterdam, L. J. Laslett, Strong Focusing in Circular Particle Accelerators, in A. Septier, Ed., Focusing of 558
4 Charged Particles, Vol. 2., Academic, New York, J. D. Lawson, The Physics of Charged-particle Beams, Clarendon Press, Oxford, B. Lehnert, Dynamics of Charged Particles, North-Holland, Amsterdam, A. J. Lichtenberg, Phase Space Dynamics of Particles, Wiley, New York, R. Littauer, Beam Instrumentation, inphysics of High-energy Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, J. J. Livingood, Principles of Cyclic Particle Accelerators, Van Nostrand, Princeton, New Jersey, J. J. Livingood, The Optics of Dipole Magnets, Academic, New York, M. S. Livingston (Ed.), The Development of High Energy Particle Accelerators, Dover, New York, M. S. Livingston, High Energy Accelerators, Interscience, New York, M. S. Livingston, Particle Accelerators, A Brief History, Harvard University Press, Cambridge. Mass., M. S. Livingston and J. P. Blewett, Particle Accelerators, McGraw-Hill, New York, G. A. Loew and R. Talman, Elementary Principles of Linear Accelerators, inphysics of High Energy Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, W. B. Mann, The Cyclotron, Methuen, London, J. W. Mayer, L. Eriksson, and J. A. Davies, Ion Implantation in Semiconductors, Academic, New York, N. W. McLachlan, Theory and Application of Matheiu Functions, Oxford University Press, Oxford, A. H. Maleka, Electron-beam Welding - Principles and Practice, McGraw-Hill, New York, R. B. Miller, Intense Charged Particle Beams, Plenum Press, New York,
5 M. Month (Ed.), Physics of High Energy Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, R. B. Neal (Ed.), The Stanford Two-mile Accelerator, Benjamin, Reading, Mass., T. J. Northrup, The Adiabatic Motion of Charged Particles, Interscience, New York, H. Patterson, Accelerator Health Physics, Academic, New York, E. Perisco, E. Ferrari, and, S. E. Segre, Principles of Particle Accelerators, Benjamin, New York, J. R. Pierce, Theory and Design of Electron Beams, Van Nostrand, Princeton, New Jersey D. Potter, Computational Physics, Wiley-Interscience, New York, R. E. Rand, Recirculating Electron Accelerators, Harwood Academic, New York, S. Ramo, J. R. Whinnery, and T. Van Duzer, Fields and Waves in Communications Electronics, Wiley, New York, E. Regenstreif, Focusing with Quadrupoles, Doublets and Triplets, in A. Septier, Ed., Focusing of Charged Particles, Vol, 1, Academic, New York, J. Rosenblatt, Particle Accelerators, Methuen, London, W. Scharf, Particle Accelerators and Their Uses, Harwood Academic, New York S. Schiller, U. Heisig, and S. Panzer, Electron Beam Technology, Wiley, New York, R.W. Southwell, Relaxation Methods in Theoretical Physics, Oxford University Press, Oxford, A. Septier (Ed.), Applied Charged Particle Optics, Part A, Academic, New York, A. Septier (Ed.), Applied Charged Particle Optics, Part B, Academic, New York, 1980, A. Septier (Ed.), Applied Charged Particle Optics, Part C, Very-High Density Beams, Academic, New York, A. Septier (Ed.). Focusing of Charged Particles, Academic, New York,
6 J. C. Slater, Microwave Electronics, Van Nostrand, Princeton, New Jersey, K. G. Steffen, High Energv Beam Optics, Wiley-Interscience, New York, E. Stuhlinger, Ion Propulsign for Space Flight, McGraw-Mll, New York, P. Sturrock, Static and Dynamic Electron Optics, Cambridge University Press, London, M. Tigner and H. Padamsee, Superconducting Microwave Cavities in Accelerators for Particle Physics, inphysics of High Energv Particle Accelerators (SLAC Summer School, 1982), American Institute of Physics, New York, A. D. Vlasov, Theory of Linear Accelerators, Atomizdat, Moscow, C. Weber, Numerical Solutions of Laplace's and Poisson's Equations and the Calculation of Electron Trajectories and Electron Beams, in A. Septier, Ed., Focusing of Charged Particles, Vol. 1, Academic, New York, R. G. Wilson and G. R. Brewer, Ion Beans with Applications to Ion Implantation, Wiley, New York, H. Wollnik, Electrostatic Prisms, in A. Septier, Ed., Focusing of Charged Particles, Vol. 2, Academic, New York, H. Wollnik, Mass Spectrographs and Isotope Separators, in A. Septier, Ed., Applied Charged Particle Optics, Part B, Academic, New York, O. C. Zienkiewicz, The Finite Element Method in Engineering Science, McGraw-Hill, New York, J.F. Ziegler, New Uses of Ion Accelerators, Plenum, New York, V. K. Zworykin, G. A. Morton, E. G. Ramberg, J. Hillier, and A. W. Vance, Electron Optics and the Electron Microscope, Wiley, New York,
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