Measurement and Control of Charged Particle BeamsThe intent of this book is to bridge the link between experimental obser vations and theoretical principles in accelerator physics. The methods and concepts, taken primarily from high energy accelerators, have for the most part already been presented in internal reports and proceedings of accelera tor conferences, a portion of which has appeared in refereed journals. In this book we have tried to coherently organize this material so as to be useful to designers and operators in the commissioning and operation of particle accelerators. A point of emphasis has been to provide, wherever possible, experimental data to illustrate the particular concept under discussion. Of the data pre sented, most are collected from presently existing or past accelerators and we regret the problem of providing original data some of which appear in less accessible publications - for possible omissions we apologize. Regarding the uniformity of the text, particularly with respect to symbol definitions, we have taken the liberty to edit certain representations of the data while trying to maintain the essence of the presented observations. Throughout the text we have attempted to provide references which are readily available for the reader. |
Contents
I | 1 |
II | 6 |
III | 11 |
IV | 12 |
V | 14 |
VI | 15 |
VII | 17 |
IX | 19 |
LXXXVIII | 149 |
LXXXIX | 150 |
XC | 152 |
XCI | 153 |
XCII | 154 |
XCIII | 155 |
XCV | 156 |
XCVI | 159 |
X | 25 |
XI | 26 |
XII | 27 |
XIV | 28 |
XV | 30 |
XVI | 32 |
XVII | 34 |
XVIII | 35 |
XIX | 36 |
XX | 37 |
XXI | 40 |
XXII | 41 |
XXIV | 42 |
XXV | 43 |
XXVII | 46 |
XXVIII | 48 |
XXIX | 49 |
XXX | 50 |
XXXI | 52 |
XXXII | 53 |
XXXIV | 54 |
XXXV | 56 |
XXXVII | 57 |
XXXVIII | 58 |
XXXIX | 59 |
XL | 60 |
XLI | 61 |
XLII | 62 |
XLIII | 63 |
XLV | 64 |
XLVI | 69 |
XLVII | 71 |
XLVIII | 72 |
XLIX | 75 |
L | 76 |
LI | 78 |
LII | 79 |
LIII | 80 |
LIV | 82 |
LV | 85 |
LVI | 87 |
LVII | 89 |
LVIII | 91 |
LIX | 94 |
LX | 95 |
LXI | 96 |
LXII | 97 |
LXIII | 99 |
LXIV | 101 |
LXVI | 104 |
LXVII | 106 |
LXVIII | 111 |
LXIX | 116 |
LXX | 117 |
LXXI | 120 |
LXXII | 121 |
LXXIII | 122 |
LXXIV | 125 |
LXXV | 126 |
LXXVI | 128 |
LXXVII | 129 |
LXXVIII | 130 |
LXXIX | 133 |
LXXXI | 134 |
LXXXII | 137 |
LXXXIII | 139 |
LXXXIV | 141 |
LXXXVI | 143 |
LXXXVII | 147 |
XCVIII | 160 |
XCIX | 161 |
C | 162 |
CI | 163 |
CII | 164 |
CIV | 165 |
CVI | 167 |
CVIII | 168 |
CX | 170 |
CXI | 171 |
CXII | 175 |
CXIV | 178 |
CXV | 180 |
CXVI | 182 |
CXVII | 186 |
CXVIII | 190 |
CXIX | 197 |
CXXI | 202 |
CXXII | 203 |
CXXIII | 208 |
CXXIV | 211 |
CXXVI | 214 |
CXXVIII | 216 |
CXXIX | 217 |
CXXX | 218 |
CXXXI | 219 |
CXXXII | 220 |
CXXXIII | 221 |
CXXXV | 224 |
CXXXVI | 226 |
CXXXVII | 229 |
CXXXVIII | 230 |
CXXXIX | 232 |
CXL | 234 |
CXLI | 236 |
CXLII | 238 |
CXLIII | 239 |
CXLV | 240 |
CXLVI | 241 |
CXLVIII | 242 |
CXLIX | 243 |
CL | 244 |
CLI | 246 |
CLII | 247 |
CLIII | 249 |
CLIV | 250 |
CLVI | 255 |
CLVII | 257 |
CLIX | 261 |
CLX | 263 |
CLXII | 266 |
CLXIV | 268 |
CLXV | 273 |
CLXVI | 274 |
CLXVIII | 276 |
CLXIX | 277 |
CLXX | 279 |
CLXXI | 282 |
CLXXII | 285 |
CLXXIV | 286 |
CLXXV | 290 |
CLXXVI | 292 |
CLXXVII | 295 |
CLXXVIII | 297 |
CLXXIX | 298 |
CLXXX | 301 |
329 | |
361 | |
Other editions - View all
Measurement and Control of Charged Particle Beams Michiko G. Minty,Frank Zimmermann No preview available - 2011 |
Measurement and Control of Charged Particle Beams Frank Zimmermann,Michiko Minty No preview available - 2020 |
Common terms and phrases
accelerator angle beam current beam distribution beam emittance beam energy beam lifetime beam position beta function betatron oscillation betatron phase betatron tune Bmag bunch length cavity centroid CERN chromaticity correction corrector Courtesy damping ring deflection denotes dipole dispersion electron beam electron cooling energy spread equation equilibrium emittance error example excitation extraction feedback Fermilab harmonic HERA injected beam kick kicker laser cooling lattice linac Linear Collider longitudinal matrix minimize mismatch monitor motion muon nonlinear offset optics parameters PEP-II phase advance phase space plane polarization precession Proc proton proton beam quadrupole magnets radiation damping resonance rf frequency rf voltage rms beam septum sextupole shown in Fig siberian snake signal SLAC SLC linac solenoid spin tune steering stochastic cooling storage ring strength synchrotron radiation trajectory transport line transverse tune shift turn vector velocity wake field wiggler wire zero
Popular passages
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Page 352 - Zeroth Order Design Report for the Next Linear Collider, SLAC Report 474, 1996.
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