Fermilab Documents List

Fermilab 1968 list

Last modified at 07:25:32 updated on 11/23/09.

    1968

  1. monthly report of activities: july 1, 1968;
  2. monthly report of activities: august 1, 1968;
  3. monthly report of activities: september 1, 1968;
  4. monthly report of activities: october 1, 1968;
  5. monthly report of activities: november 1, 1968;
  6. monthly report of activities: december 1, 1968;
  7. monthly report of activities: april 1, 1969;
  8. monthly report of activities: may 1, 1969;
  9. monthly report of activities: june 1, 1969;
  10. proton-proton colliding-beam storage rings for the national accelerator laboratory: design study 1968;
  11. Albert, A.D. nal accelerator control system design philosophy;
  12. Awschalom, M. labyrinths and addition of boron to accelerator enclosure walls: resume of conversations with dr. r. mccall, slac;
  13. Awschalom, M. linac shielding;
  14. Awschalom, M. external proton beam back stop: muon shielding;
  15. Awschalom, M. maximum dose rate in booster tunnel directly underneath linac beam transport pipe;
  16. Awschalom, M. linac shielding ii;
  17. Awschalom, M. trip to oak ridge national laboratory on january 11, 1968;
  18. Awschalom, M. report on trip to bnl on january 4, 1968;
  19. Awschalom, M. a possible safety wall between the booster and the main ring;
  20. Berley, D. modulated proton beam for an rf separated beam;
  21. Berley, D. hyperon beams at a 200-gev accelerator;
  22. Berley, D. note on kadyk's separated beam;
  23. Billinge, R. booster reference design, part 1;
  24. Billinge, R. booster ejection;
  25. Billinge, R. booster tuning;
  26. Billinge, R. booster correction elements;
  27. Billinge, R. injection energy of the 5-hz booster;
  28. Billinge, R. booster aperture requirements;
  29. Billinge, R. booster radius;
  30. Billinge, R. booster magnet gradient tolerance;
  31. Blanpied, W.A. a note on phase 1 mu e scattering and muon bremsstrahlung experiments at weston;
  32. Block, M. neutrino physics;
  33. Britton, R.B. summary of ideas for a superconducting storage ring;
  34. Camerini, U. neutrino beams and shielding;
  35. Camerini, U. flux calculation for the so called 'high quality low cost beam';
  36. Chew, G.F. a simple formula for the distribution of energetic secondary baryons from proton initiated collisions;
  37. Cline, D. comments on low momentum high intensity beams at nal;
  38. Cline, D. lepton conservation tests at high momentum transfer using the neutrino shield;
  39. Cline, D. study of the four fermion weak interaction and exotic beta decays using neutrino scattering on high z materials;
  40. Cline, D. tagged high-energy anti-neutron, hyperon and anti-hyperon beams at nal;
  41. Cline, D. comments on hybrid visual magnetic spectrometers;
  42. Cole, Frank T., (Ed.) national accelerator laboratory design report january 1968;
  43. Condon, P.E. some notes on the detection of neutrals in a large bubble chamber;
  44. Condon, P.E. proposed modification to combined bubble chamber plus spark chamber system;
  45. Condon, P.E. search for longlived heavy particles;
  46. Courant, E.D. choice of radius for nal storage ring;
  47. Courant, E.D. nuclear and coulomb scattering in storage ring;
  48. Courant, E.D. phase space dilution in three turn injection;
  49. Danby, G. quads and bending magnets for nal;
  50. Derado, I. proposal for 12-meter streamer chamber;
  51. Derrick, M. fake studies of some strong and weak interactions in the 12-ft and 25-ft bubble chambers; fake studies of some strong and weak interactions in the 12-ft and 25-ft bubble chambers; fake studies of some strong and weak interactions in the 12-ft and 25-ft bubble chambers;
  52. DeWire, J.W. miscellaneous notes on steel and laminations for the main ring magnets;
  53. Dinkel, J. second harmonic component in booster magnet current;
  54. Dinkel, J. the model approach to synchronization;
  55. Drell, S.D. remarks on experiments at nal;
  56. Elioff, T. problems in design of epb (memo to a.l. read);
  57. Featherstone, R. coaxial transmission line for the nal 200-mev linac;
  58. Featherstone, R.P. phase measurements on the zgs 50-mev linac;
  59. Feng, H. proposal for a small digital computer for use in magnetic field measurements;
  60. Fields, T. field shape tolerances for nal superconducting beam transport elements;
  61. Fields, T. a hybrid detector system for 100-gev strong interactions;
  62. Frauenfelder, H. target stations with high beam multiplicity;
  63. Frisch, David H. beam and spark chamber detector for search for w's produced by neutrinos;
  64. Garren, A.A. storage ring study;
  65. Gluckstern, R.L. distortion effects in beam transport systems with space charge;
  66. Gluckstern, R.L. coupling of horizontal and vertical oscillations in an ags;
  67. Goldberger, M. seminar;
  68. Gollon, P.J. radiation levels in the booster enclosure;
  69. Gray, E.R. calculated beam properties for the nal 750-kev transport system;
  70. Green, M.A. a cost estimate for the nal 100-gev intersecting storage rings using superconducting magnets: a comparison between 50-kg and 60-kg m;
  71. Heusch, C.A. an electron photon facility for the national accelerator laboratory;
  72. Heusch, C.A. general comments on the use of proton storage rings;
  73. Hulsizer, R.I. comments on substituting a streamer chamber for the bubble chamber in the hybrid bubble chamber spark chamber detector proposed b;
  74. Hyman, L. neutrino beams at nal;
  75. Jones, Lawrence W. proton proton elastic scattering with 2 x 100-gev colliding beams;
  76. Jones, Lawrence W. miscellaneous comments and observations on nal 100-gev x 100-gev colliding beam storage ring;
  77. Juergens, Richard C. trip report to lrl berkeley, california january 22 & 23, 1968 and straza industries and pathway bellows, inc. el cajon, california and Solar Division, International Harvester Compan;
  78. Juhala, R. initial magnetic measurements for the booster magnet;
  79. Jurgens, R.C. trip report: visit to solar division, international harvester company, san diego, calif., november 14-15, 1968;
  80. Keefe, D. superconducting beam transport magnets at the 200-gev accelerator;
  81. Keil, E. electric field required for deneutralizing the stacked beam in the nal storage rings;
  82. Keil, E. space charge limit for a neutralized beam;
  83. Keil, E. an estimate of luminosity and nu shifts;
  84. Keil, E. aperture requirements at injection into the nal storage ring;
  85. Keil, E. kicker requirements for phase plane interchange injection into nal storage rings;
  86. Kirk, T.B. muon electron scattering at nal;
  87. Klaisner, L. a booster low-level rf system;
  88. Klaisner, L. a booster timing system;
  89. Klaisner, L.A. a booster monitor and control system;
  90. Klaisner, L.A. notes on a booster control system;
  91. Klaisner, L.A. notes on the central control computer facility;
  92. Klaisner, L.A. booster-main ring synchronization phase jump technique;
  93. Krisch, A.D. facilities for small experiments;
  94. Krisch, A.D. experiments on proton proton interactions;
  95. Krisch, A.D. a storage ring interaction station for measuring proton proton elastic scattering in the vertical plane;
  96. Krisch, A.D. remarks on pi- p backward scattering experiments;
  97. Krisch, A.D. low cost high quality neutrino beam;
  98. Krisch, A.D. very high intensity pi beams;
  99. Krisch, A.D. thin target stations with earth shielding and steering magnets;
  100. Kruse, U. analysis of bubble chamber events containing neutral pions;
  101. Lach, J. 100-gev/c rf separated beam: 1968 modification;
  102. Lach, J. comments on the bubble chamber spark chamber detector proposed by t. fields et al.;
  103. Lai, K.W. some speculative mu experiments;
  104. Lari, R.J. computer design of the main ring bending magnets;
  105. Lederman, L.M. influence of detector spatial resolution in the scaling of nal experiments;
  106. Lederman, L.M. beam dump experiment: dimuons and neutrinos;
  107. Lederman, L.M. search for intermediate bosons using muons;
  108. Little, R. very high-energy cosmic ray experiments;
  109. Livdahl, P.V. notes on linac control system;
  110. Livingston, M. Stanley early history of the 200-gev accelerator;
  111. Livingston, M.S. storage ring study paper #2;
  112. Livingston, M.S. dimensional study of intersecting storage rings;
  113. Livingston, M.S. design features of the 200-gev accelerator;
  114. Livingston, M.S. prospects for superconducting accelerators;
  115. Livingston, M.S. simplified analysis of shielding requirements;
  116. Livingston, M.S. study paper on the nal storage ring design;
  117. Longo, M.J. neutral beam experiments at the 200-gev accelerator;
  118. Luckey, D. form-factor experiments;
  119. Luckey, D. tagging counters for electrons in the 100-gev range;
  120. Maschke, A. equilibrium orbit corrections for the main ring;
  121. Maschke, A.W. consideration of an internal target facility;
  122. Maschke, A.W. a proposal for a proton beam target station;
  123. Meyer, D.I. comments on hybrid spectrometer system;
  124. Meyer, D.I. high intensity pi beams;
  125. Meyer, D.I. spark chamber experiment on pi- p ---> n* rho0;
  126. Meyer, D.I. some general thoughts on two-body small momentum transfer spectrometer experiments at high-energies;
  127. O'Meara, J. mechanical design features of the nal 200 mev;
  128. Paterson, J.M. vacuum and shielding requirements for 100-gev proton storage rings;
  129. Peoples, J. background in the 25-ft chamber when used for neutrino physics;
  130. Perl, M.L. progress report on group b. 4, neutral beams;
  131. Perl, M.L. inelastic muon proton experiments at nal;
  132. Perl, M.L. some considerations on the design of a minimal nal target station, based on experience at slac;
  133. Perl, M.L. progress report on muon and electron beam for nal;
  134. Poirier, J. relkin:: a relativistic kinematics program;
  135. Poirier, J.A. the electromagnetic form-factor of the charged pion (muon, kaon, electron);
  136. Poirier, J.A. threshold cherenkov counters in secondary beams at nal;
  137. Read, Anthony Lincoln a neutron beam facility;
  138. Roberts, A. further studies on a combined bubble spark chamber high accuracy detector system for multiparticle final states at 100-gev/c;
  139. Roberts, A. an evaluation of the 12-meter streamer chamber;
  140. Roberts, A. an approach to establishing the characteristics of a flexible modular large scale detection system for the study of complex high p = 7;
  141. Roberts, A. simple high momentum neutrino beams;
  142. Roberts, A. summary of an informal meeting on beam transport equipment - april 8-10, 1968;
  143. Roberts, A. acceptance of secondary particle beams;
  144. Roberts, A. design of an experiment to study k(e4)+- and k(mu4)+- decays. 1. general considerations and triggering design;
  145. Roberts, A. comment on d-1-68-52, 'initial program capacity at nal,' by j. sanford;
  146. Romanowski, T.A. hyperon beams at the 200-gev weston accelerator and possible experiments with these beams;
  147. Rosenson, L. further comments on the influence of detector spatial resolution on spectrometer scaling;
  148. Rowe, E.M. some remarks concerning the achievement of pressures in the low 10**-9-torr range, or better, in the nal storage ring;
  149. Sanford, J. experimental building costs;
  150. Sanford, J. initial program capacity at nal;
  151. Sanford, J.R. plans for experimental areas at the nal 200-gev - 400-gev accelerator;
  152. Satti, John A. main accelerator bending magnet coils;
  153. Schnell, W. rf considerations for 100-gev intersecting storage rings;
  154. Schnell, W. bunching the beam in the storage rings;
  155. Schultz, C. polarized targets at nal;
  156. Schultz, C. tests of universality with neutrinos;
  157. Shoemaker, F.C. some thoughts on the elevation of the main ring;
  158. Shoemaker, F.C. main ring magnet field errors;
  159. Shoemaker, F.C. effect of pulsed stray magnetic fields on the injection storage ring;
  160. Shoemaker, F.C. matching quadrupole aperture increase??;
  161. Shoemaker, F.C. eddy currents in main ring magnet conductors;
  162. Smith, B. metering techniques for electronic maintenance of main ring rf station;
  163. Smith, B.H. design considerations for particle accelerator control systems;
  164. Smith, J.H. spark chamber experiments: pi+ p ---> k0 lambda0 at 100-gev;
  165. Smith, J.H. the use of a high-energy k0(l) beam to study k0(l) p ---> p k0(s) regeneration to check the pomeranchuk theorem;
  166. Smith, J.H. k0(l) secondary beam characteristics;
  167. Smith, J.H. targeting for neutral beams;
  168. Smith, L. remarks on the compressor - accelerator interface;
  169. Smith, L. on the effect of longitudinal space charge forces on a drifting bunched beam;
  170. Smith, Lloyd electron ring accelerators;
  171. Snow, G.A. neutrino physics and the 25-ft bubble chamber;
  172. Snowdon, S.C. conventional bending magnets for storage ring;
  173. Snowdon, S.C. conventional bending magnets for storage ring (ii);
  174. Snowdon, S.C. ac resistance of rectangular coil;
  175. Snowdon, S.C. uniform field from distribution of currents on an ellipse;
  176. Stevenson, M.L. the neutrino facility at nal;
  177. Stiening, R. a proposal for the use of the 10-bev booster accelerator as a source of low-energy k+- mesons;
  178. Stiening, R. a proposal to use synchrotron magnets in secondary beams;
  179. Strauch, K. remarks on doing strong interaction physics involving multiparticle final states in the 100-gev region;
  180. Symon, K.R. space charge effects on synchrotron oscillations;
  181. Symon, K.R. extraction at a third integral resonance. 1.;
  182. Symon, K.R. beam extraction near a third integral resonance. 2.;
  183. Symon, K.R. beam extraction at a third integral resonance. 3.;
  184. Symon, K.R. beam extraction at a third integral resonance iv;
  185. Tannenbaum, M.J. muon tridents at nal;
  186. Teng, L.C. fodo lattice for storage rings;
  187. Teng, L.C. empirical formulas for ion pumping: information obtained from nuclear physics institute, novosibirsk;
  188. Teng, L.C. 200-gev storage ring parameters;
  189. Teng, L.C. symmetric achromatic beam transport systems;
  190. Teng, L.C. philosophy and technique for design of the main ring bending magnets;
  191. Toner, W.T. problems in attempting to measure d (sigma) / dt (gamma p ---> gamma p) compton scattering;
  192. Toner, W.T. design of an experiment to measure sigma-t (gamma p ---> hadrons) at very high-energies;
  193. Toner, W.T. electron and photon beams at nal;
  194. Toner, W.T. general ideas about beam design for nal;
  195. Toner, W.T. comments on longo neutral beam;
  196. Toner, W.T. feasibility of using high flux muon beams;
  197. Toohig, T.E. a possible muon channel at the ags and its relevance to a phase iii muon channel at nal;
  198. Tool, G.S. booster rf system response to guide field 2nd harmonic;
  199. Tool, G.S. decision on booster tunnel penetrations to the rf cavities;
  200. Tool, G.S. rf system control computer plans;
  201. Tool, G.S. rf control computer configuration;
  202. Tool, Gerry S. booster rf system ac power and cooling requirements;
  203. Trilling, G. report of group a large hydrogen bubble chamber study;
  204. Trilling, G. strong interactions in the 25-ft bubble chamber;
  205. Van Steenbergen, A. booster lower energy injection (200-mev - 150-mev);
  206. Van Steenbergen, A. booster parameters for 1 or 2 turn stacking in the accumulator;
  207. Van Steenbergen, A. injection criteria storage ring;
  208. Villa, F. a few thoughts about high-energy detectors;
  209. Walker, T.G. meeting of summer study group on charged particle beams;
  210. Walker, T.G. elastic hadron scattering at high-energies;
  211. Walker, T.G. interim report by summer study group on charged particle beams;
  212. Walker, T.G. secondary particle yields at 200-gev;
  213. Walker, T.G. subgroup b. 5 charged particles beams;
  214. Walker, T.G. a 120-gev/c unseparated beam using small aperture components;
  215. Walker, W.D. on the use of a hybrid bubble chamber in the 100-gev region;
  216. Webster, Medford separated sigma- beams for bubble chambers;
  217. White, D.H. a proposal for a unilateral target station number 1;
  218. White, D.H. an experiment to look at backward peaks in pi- p scattering;
  219. White, H. w s at the 200-gev accelerator;
  220. White, T.O. a spectrometer for measuring inelastic secondaries from 200-gev/c, p p collisions;
  221. Wilson, R. comments on 'the electromagnetic form-factor of the charged pion' by j.a. poirier;
  222. Wilson, Richard power supplies for magnets at nal;
  223. Wilson, Richard electromagnetic physics at nal;
  224. Wilson, Richard use of weston mu beams for electromagnetic physics of hadrons;
  225. Wilson, Richard measurements of luminosity;
  226. Wilson, Robert Rathbun a superferric storage ring;
  227. Wilson, Robert Rathbun injection accumulator nal proton synchrotron;
  228. Yamada, R. dc field measurements on no. 2 model magnet;
  229. Yamada, R. the magnetic field measurement of mark-i model magnet;
  230. Yamanouchi, T. a muon beam at nal;
  231. Yuan, L.C.L. some new developments and proposals in high-energy detectors;
  232. Yuan, L.C.L. parameters of the nal 200-gev accelerator;