| Introduction - The first week of the Symposium : The design of accelerating machines(p. 1) |
| by Adams, J B |
| Accelerator studies at A.E.R.E., Harwell (p. 9) |
| by Dunn, P D |
| Fixed field alternating gradient particle accelerators (p. 32) |
| by Kerst, D W |
| Properties of an intersecting-beam accelerating system (p. 36) |
| by Kerst, D W |
| A synchrotron with a double vacuum chamber (p. 40) |
| by Salvini, G |
| The Argonne 12.5 Gev Proton Synchrotron (p. 42) |
| by Crosbie, E A |
| Methods of radio frequency acceleration in fixed field accelerators with applications to high current and intersecting beam accelerators (p. 44) |
| by Symon, K R |
| On the possibility of designing an isochronous accelerator with constant betatron frequencies (p. 59) |
| by Salzman, F |
| The design of high energy accelerators (p. 60) |
| by Brobeck, W M |
| The storage-ring synchrotron (p. 64) |
| by O'Neill, G K |
| Relativistic stabilized electron beam : I. Physical principles and theory(p. 68) |
| by Budker, G J |
| Relativistic stabilized electron beam : II. Brief review of experimental work(p. 76) |
| by Budker, G J |
| Coherent principle of acceleration of charged particles (p. 80) |
| by Veksler, V I |
| The use of plasma waveguides as accelerating structures in linear accelerators (p. 84) |
| by Fainberg, Ia B |
| Alternating phase focusing (p. 91) |
| by Fainberg, Ia B |
| Phase transition in the alternating-gradient accelerator (p. 103) |
| by Green, G K |
| Effects of non-linearities on the phase transition (p. 106) |
| by Johnsen, K |
| On the decay of the passage through the transition energy in accelerators (p. 112) |
| by Kolomenski, A A |
| Project of a proton ring accelerator for 7 Bev (p. 118) |
| by Vladimirski, V V |
| Main characteristics of a projected strong-focusing 50-60 Bev proton accelerator (p. 122) |
| by Vladimirski, V V |
| The external proton beam at the Cosmotron (p. 129) |
| by Collins, G B |
| Deflection of the beam of a 7 Bev strong focusing proton accelerator (p. 133) |
| by Vladimirski, V V |
| Ejection problems for the CERN AG-machine (p. 137) |
| by Citron, A |
| Regenerative action in high energy accelerators (p. 140) |
| by Cohen, S |
| The USSR Academy of Sciences' 6 metre synchrocyclotron (p. 148) |
| by Efremov, D V |
| Synchro-cyclotron ejector (p. 153) |
| by Verster, N F |
| Linear accelerator injectors for proton-synchrotrons (p. 159) |
| by Blewett, J P |
| Alternating gradient focusing in linacs : computational results(p. 167) |
| by Hereward, H G |
| Proton orbits in the Brookhaven linear accelerator (p. 174) |
| by Smith, Lloyd |
| Method of computation of drift tube shapes (p. 176) |
| by Christofilos, N C |
| Problems of injection (p. 179) |
| by Hereward, H G |
| Etude de lentilles magnétiques à focalisation forte (p. 192) |
| by Grivet, P |
| Inflecteur d'injection achromatique pour le synchrotron à protons de Saclay (p. 200) |
| by Bruck, H |
| Some problems connected with the design of high current linear accelerators (p. 207) |
| by Semenov, N N |
| Proton linear accelerators (p. 213) |
| by Dunn, P D |
| Possible modification of the linear and cyclical methods of acceleration (p. 215) |
| by Sinelnikov, K D |
| Proposal for a new type of microwave linear accelerator (p. 218) |
| by Gozzini, A |
| Cerenkov radiation and the stability of beams in the wave guides of slow waves used in linear accelerators (p. 220) |
| by Akhiezer, A I |
| Proposal for injecting protons into a synchrotron by dissociation of molecular + ions (p. 231) |
| by Moon, P B |
| Non-linear orbit problems in synchrotrons (p. 237) |
| by Hagedorn, R |
| Non-linearities in the AG synchrotron (p. 254) |
| by Courant, E D |
| A mechanical analogue for the study of betatron oscillations (p. 262) |
| by Barbier, M |
| On the non-linear theory of betatron oscillations (p. 265) |
| by Kolomenski, A A |
| Particle orbits in fixed field alternating gradient accelerators (p. 279) |
| by Laslett, L J |
| The resonance lines for the synchrotron (p. 290) |
| by Moser, J |
| Note on an instability on a difference resonance line (p. 293) |
| by Hagedorn, R |
| Sur quelques effets de courbure dans le synchrotron à protons du CERN (p. 295) |
| by Regenstreif, E |
| Considérations sur l'électro-aimant d'un synchrotron à gradient alterné (p. 307) |
| by Ramon, C A |
| Correction du champ magnétique par entrefer d'amortissement ou par crénelage de la surface polaire (p. 330) |
| by Bruck, H |
| Magnetic characteristics of the 10 Bev proton synchrotron (p. 339) |
| by Zhuravlev, A A |
| The orbital magnet and power supply of the 10 Gev proton synchrotron at the Australian National University (p. 344) |
| by Blamey, J W |
| A Small model fixed field alternating gradient radial sector accelerator (p. 359) |
| by Jones, L W |
| Spiral sector magnets (p. 366) |
| by Kerst, D W |
| Suppression of the ripple voltages in the synchrotron magnet power supply (p. 376) |
| by Le Gardeur, R |
| The power supply system of the 10 Bev synchrotron electromagnet (p. 378) |
| by Gashev, M A |
| Some structural features of the 10 Bev synchrotron electromagnet (p. 382) |
| by Komar, E G |
| Vacuum chamber of the 10 Bev synchrotron electromagnet (p. 385) |
| by Komar, E G |
| Experimental ring-shaped 200-650 Mev strong-focusing proton accelerator (p. 387) |
| by Komar, E G |
| Beam controlled acceleration in synchrotrons (p. 395) |
| by Johnsen, K |
| Measurement of instantaneous values of variable magnitude in protron synchrotron technique (p. 404) |
| by Rubchinski, S M |
| Frequency modulation and radiofrequency system for the modified Berkeley Cyclotron (p. 413) |
| by Thornton, R L |
| Radio-frequency system for the 680 Mev proton synchrocyclotron (p. 419) |
| by Mints, A L |
| The CERN 600 Mev Synchrocyclotron R.F. system (p. 425) |
| by Krienen, F |
| A ferrite loaded tuning system for synchrocyclotrons (p. 427) |
| by Duuren, K van |
| A mechanically modulated radio frequency cavity model (p. 428) |
| by Jones, L W |
| Some technical characteristics of the 10 Bev proton synchrotron electronic system (p. 429) |
| by Mints, A L |
| The Cambridge electron accelerator (p. 439) |
| by Livingston, M S |
| The effect of radiation on the motion of relativistic electrons in a synchrotron (p. 447) |
| by Kolomenski, A A |
| On the theory of the "luminous" electrons (p. 456) |
| by Sokolov, A A |
| On the use of electric currents to increase the radial extent of the focusing region in the INFN electron-synchrotron (p. 458) |
| by Salvini, G |
| Scattering losses in weak focusing electron-synchrotrons (p. 463) |
| by Bernardini, C |
| Measurements, with peaking strips in the gap of a weak-focusing electron-synchrotron, of median magnetic surfaces in the static field and of n at the injection in the dynamic field (p. 471) |
| by Diambrini-Palazzi, G |
| Reverse field stabilization in a D.C.-A.C. excited magnet of an electron-synchrotron (p. 475) |
| by Ghigo, G |
| List of parameters of the Italian electron synchrotron (p. 480) |
| by Sezione Acceleratore I N F N |
| The Bonn University electron synchrotron (p. 482) |
| Experimental investigations of physical processes facilitating the capture of electrons injected into the betatron (p. 484) |
| by Lobanov, Iu N |
| Operation of the Cosmotron (p. 493) |
| by Smith, L W |
| Bevatron operational experiences (p. 496) |
| by Lofgren, E J |
| High energy particle beams from the six metre synchrocyclotron and their utilization (p. 504) |
| by Dzhelepov, V P |
| Operating characteristics of the Birmingham Proton Synchrotron (p. 511) |
| by Moon, P B |
| An improvement in the R.F. system of the Birmingham Proton Synchrotron (p. 512) |
| by Rose, P H |
| Some operational problems with a l80 Mev synchrophasotron. (Model of l0 Bev Synchrophasotron) (p. 513) |
| by Danilkin, I S |
| A 3 Bev high intensity proton-synchrotron (p. 525) |
| by White, M G |
| The Stanford Mark III linear accelerator and speculations concerning the multi-Bev applications of electron linear accelerators (p. 530) |
| by Neal, R B |
| Cyclotron with sectioned magnet system (p. 547) |
| by Moroz, E M |
