Наблюдение рождения J/ ? во взаимодействиях мюонных нейтрино с нуклонами, обусловленных нейтральным током

Список литературы

1. J.M. Conrad, М.Н. Shaevitz and Т. Bolton.
2. Precision measurements with high-energy neutrino beams. Rev. Mod. Phys. 70 (1998) 1341.
3. CDHS Collaboration, H. Abramowicz et al.
4. Experimental study of opposite-sign dimuons produced in neutrino and antineutrino interactions. Z. Phys. C15 (1982) 19.
5. CHARM-II Collaboration, P. Vilain et al.1.ading-order QCD analysis of neutrino induced dimuon events. Europ. Phys. J. СИ (1999) 19.4. CCFR Collaboration: a) S. Rabinowitz et al.
6. Measurement of the strange sea distribution using neutrino charm production. Phys. Rev. Lett. 70 (1993) 134-b) A. Bazarko et al.
7. Determination of the strange quark content of the nucleonfrom a next-to-leading-order QCD analysis of neutrino charm production.1. Z. Phys. C65 (1995) 189.
8. NuTeV Collaboration, T. Adams et al.
9. Evidence for diffractive charm production in z/MFe and i^Fe scatteringat the Tevatron.
10. Phys. Rev. D61 (2000) 92 001.
11. CDHS Collaboration, H. Abramowicz et al.
12. Evidence for J/ф production by neutrinos via neutral currents. Phys. Lett. B109 (1982) 115.
13. HI Collaboration, A. Aid et al.
14. Elastic electroproduction of p° and J/ф mesons at large Q2 at HERA. Nucl. Phys. B468 (1996) 3-
15. HI Collaboration, C. Adloff et al.
16. Charmonium production in deep inelastic scattering at HERA. Europ. Phys. J. C10 (1999) 373-
17. ZEUS Collaboration, J. Breitweg et al.
18. Exclusive electroproduction of p° and J/ф mesons at HERA.
19. Europ. Phys. J. C6 (1999) 603.
20. EMC Collaboration: J.J. Aubert et al.
21. Measurement of J/ф production in 280 GeV muon-iron interactions. Phys. Lett. B89 (1980) 267−1. J.J. Aubert et al.1.elastic J/ф production in 280 GeV muon-iron interactions. Preprint CERN-EP/80−84, submitted to Phys. Lett. B-1. J.J. Aubert et al.
22. Production of charmonium in 250 GeV ц±iron interactions. Nucl. Phys. B213 (1983) 1−1. J.J. Aubert et al.
23. A measurement of the difference between the single nucleon cross sections for J/ф muoproduction in iron and in Я2 and D2 targets. Phys. Lett. B152 (1985) 433−1. J. Ashman et al.
24. Ratio of J/ф production cross sections in deep inelastic muon scatteringfrom tin and carbon.
25. Nucl. Phys. B371 (1992) 553−1. M. Arneodo et al.
26. Quasielastic J/ф muoproduction from hydrogen, deuterium, carbon and tin. Phys. Lett. B332 (1994) 195-b) M. de Jong.
27. Muoproduction of J/ф-mesons and the gluon distribution in nucleons. PhD thesis, Amsterdam University, Amsterdam, The Netherlands, 1991.
28. BPF Collaboration, A.R. Clark et al. Observation of J/ф (3100) production by muons. Phys. Rev. Lett. 43 (1979) 187.11. HI Collaboration:
29. T. Ahmed et al. Photoproduction of J/ф mesons at HERA HI. Phys. Lett. B338 (1994) 507−1. A. Aid et al.
30. Elastic and inelastic photoproduction of J/ф mesons at HERA. Nucl. Phys. B472 (1996) 3−1. C. Adloff et al.
31. Elastic photoproduction of J/ф and T mesons at HERA. Phys. Lett. B483 (2000) 23.
32. ZEUS Collaboration: M. Derrick et al.
33. Measurement of the cross section for the reaction 7p —У J/фр with the ZEUS detector at HERA. Phys. Lett. B350 (1995) 120−1. J. Breitweg et al.
34. Measurement of elastic J/ф photoproduction at HERA. Z. Phys. C75 (1997) 215−1. J. Breitweg et al.
35. Measurement of inelastic J/ф photoproduction at HERA. Z. Phys. C76 (1997) 599.
36. E87 Collaboration, B. Knapp et al. Photoproduction of narrow resonances. Phys. Rev. Lett. 34 (1975) 1040-
37. U. Camerini et al. Photoproduction of the ф particles. Phys. Rev. Lett. 35 (1975) 483−1. B. Gittelman et al.
38. Photoproduction of the J/ф (ЪlЩ meson at 11 GeV. Phys. Rev. Lett. 35 (1975) 1616-
39. E25 Collaboration, T. Nash et al.
40. Measurement of J/ф^3100) photoproduction in deuterium at 55 GeV. Phys. Rev. Lett. 36 (1976) 1233−1. R.L. Anderson et al.
41. A measurement of the A-dependence of J/ф photoproduction. Phys. Rev. Lett. 38 (1977) 263-
42. E401 Collaboration, M. Binkley et al.
43. J/ф photoproduction from 60 GeV to 300 GeV.
44. Phys. Rev. Lett. 48 (1982) 73-
45. E516 Collaboration, B.H. Denby et al.1.elastic and elastic photoproduction of J/ф{3097).
46. Phys. Rev. Lett. 52 (1984) 795-
47. Е691 Collaboration, M.D. Sokoloff et al.
48. An experimental study of the A-dependence of J/ф photoproduction. Phys. Rev. Lett. 57 (1986) 3003-
49. NA14 Collaboration, R. Barate et al.
50. Measurement of J/ф and ф' real photoproduction on eLiat a mean energy of 90 GeV.1. Z. Phys. C33 (1987) 505-
51. E687 Collaboration, P.L. Frabetti et al.
52. Measurement of elastic J/ф photoproduction cross section at Fermilab E687. Phys. Lett. B316 (1993) 197.
53. The review of the first seven experiments can be found in the reference:1. S.D. Holmes et al.
54. High-energy photoproduction.
55. Ann. Rev. Nucl. Part. Sci., 35 (1985) 397.
56. CHORUS Collaboration, E. Eskut et al.
57. The CHORUS experiment to search for v^ —> vT oscillations. Nucl. Instr. Meth. A401 (1997) 7.
58. JI.B. Окунь. Лептоны и кварки. М., Наука, 1990, гл. 17.
59. M.A.G. Aivazis, F.J. Olness, and W.-K. Tung.1.ptoproduction of heavy quarks. 1. General formalism and kinematics of charged current and neutral current production processes. Phys. Rev. D50 (1994) 3085-
60. M.A.G. Aivazis, J.C. Collins, F.J. Olness, and W.-K. Tung.1.ptoproduction of heavy quarks. 2. A unified QCD formulation of charged current and neutral current processes from fixed target to collider energies. Phys. Rev. D50 (1994) 3102.
61. H. Georgi and H.D. Politzer.
62. Freedom at moderate energies: masses in color dynamics. Phys. Rev. D14 (1976) 1829.18. R.M. Barnett.
63. Evidence for new quarks and new currents. Phys. Rev. Lett. 36 (1976) 1163.
64. V.N. Gribov and L.N. Lipatov.
65. Deep inelastic ep scattering in perturbation theory. Sov. J. Nucl. Phys. 15 (1972) 438-
66. V.N. Gribov and L.N. Lipatov. e+e~ pair annihilation and deep inelastic ep scattering in perturbation theory. Sov. J. Nucl. Phys. 15 (1972) 675-
67. V.N. Gribov and L.N. Lipatov.
68. The parton model and perturbation theory.
69. Sov. J. Nucl. Phys. 20 (1975) 94−1. Yu.L. Dokshitzer.
70. Calculation of structure functions of deep-inelastic scattering and e+e~ annihilation by perturbation theory in quantum chromodynamics. Sov. Phys. JETP 46 (1977) 641-
71. G. Altarelli and G. Parisi. Asymptotic freedom in parton language. Nucl. Phys. B126 (1977) 298-
72. Yu.L. Dokshitzer, D.I. Diakonov, and S.I. Troian. Hard semiinclusive processes in QCD. Phys. Lett. В78 (1978) 290-
73. Yu.L. Dokshitzer, D.I. Diakonov, and S.I. Troian. Hard processes in quantum chromodynamics. Phys. Rep. 58 (1980) 269.
74. HPWF Collaboration, A. Benvenuti et al.
75. Observation of new particle production by high-energy neutrinos and anti-neutrinos. Phys. Rev. Lett. 34 (1975) 419.21. C.A.F.J. van der Poel.
76. Neutrino induced charm production in the CHORUS calorimeter. PhD Thesis, University of Nijmegen, Nijmegen, The Netherlands, 1999.
77. V. Barger, W.Y. Keung, and R.J.N. Phillips. Neutrino production of J/ф via neutral nurrents. Phys. Lett. B92 (1980) 179.23. (a) J. Kiihn and R. Ruckl. Neutrino production of charmonium. Phys. Lett. B95 (1980) 431-b) R. Rwckl.
78. Neutrino production of charmonium. Preprint MPI-PAE/PTh 25/80, July 1980
79. Talk given at the Third Warsaw Symposium on Elementary Particle Physics, Jodlowy Dwor, Poland, May 22−28, 1980).24. (a) J.P. Leveille and T. Weiler.
80. Characteristics of heavy quark leptoproduction in QCD. Nucl. Phys. B147 (1979) 147-
81. J.P. Leveille and T. Weiler.
82. Diffractive and nondiffractive J/ф leptoproduction in QCD. Phys. Lett. B86 (1979) 377-b) T. Weiler.
83. Extraction of gluon momentum, spin, parity and coupling from 7*N —" J/^iV data. Phys. Rev. Lett. 44 (1980) 304.
84. A.A. Petrov and T. Torma. Charmonium production at neutrino factories. Phys. Rev. D60 (1999) 93 009.
85. W.E. Caswell and G.P. Lepage.
86. Effective lagrangians for bound state problems in QED, QCD, and other field theories. Phys. Lett. B167 (1986) 437.27. H. Fritzsch.
87. Producing heavy quark flavors in hadronic collisions: a test of quantum chromodynamics. Phys. Lett. B67 (1977) 217−1. F. Halzen.
88. CVC for gluons and hadroproduction of quark flavors. Phys. Lett. B69 (1977) 105-
89. M. Glzick, J.F. Owens and E. Reya.
90. Gluon contribution to hadronic J/ф production.
91. Phys. Rev. D17 (1978) 2324.
92. H. Fritzsch and K.H. Streng. Photoproduction of heavy quark flavors. Phys. Lett. B72 (1978) 385−1. M. Gluck and E. Reya.
93. Duality predictions for the production of heavy quark systems in QCD. Phys. Lett. B79 (1978) 453−1. M. Gluck and E. Reya.
94. Deep inelastic quantum chromodynamic charm leptoproduction. Phys. Lett. B83 (1979) 98.
95. C. Caso et al. The review of particle physics. Europ. Phys. J. C3 (1998) 1.30. M. de Jong et al.
96. A new search for v^—? vr oscillation. Preprint CERN-PPE/93−131, 1993.31. S. Aoki et al.
97. Nuclear emulsions in a large, hybrid experiment (CHORUS) to search for v^—> vr oscillations.
98. Nucl. Instr. Meth. A447 (2000) 361- G. Catanesi et al.
99. A silicon tracker for track extrapolation into nuclear emulsions. Nucl. Instr. Meth. A434 (1999) 218.32. S. Aoki et al.
100. Scintillating fiber trackers with opto-electronic readout for the CHORUS neutrino experiment. Nucl. Instr. Meth. A344 (1994) 143−1. P. Annis et al.
101. Performance and calibration of the CHORUS scintillating fiber tracker and opto-electronics readout system. Nucl. Instr. Meth. A367 (1995) 367−1. P. Annis et al.
102. The CHORUS scintillating fiber tracker and opto-electronic readout system. Nucl. Instr. Meth. A412 (1998) 19.
103. CHORUS Collaboration, M.G. van Beuzekom et al. The trigger system of the CHORUS experiment. Nucl. Instr. Meth. A427 (1999) 587.34. F. Bergsma et al.
104. The hexagonal toroidal air-core magnet of the CHORUS detector. Nucl. Instr. Meth. A357 (195) 243.35. S. Buontempo et al.
105. Construction and test of calorimeter modules for the CHORUS experiment. Nucl. Instr. Meth. A349 (1994) 70−1. E. Di Capua et al.
106. Response to electrons and pions of the calorimeter for the CHORUS experiment. Nucl. Instr. Meth. A378 (1996) 221.36. A. Artamonov et al.
107. The CHORUS magnetic muon spectrometer. Nucl. Instr. Meth. A. (to be submitted) —
108. A. Artamonov and P. Gorbunov.
109. CHORUS muon spectrometer performance for 1ц events.
110. CHORUS Internal Note 97 029, February 23, 1998. Updated on March 12, 1999.
111. B. Van de Vyver and P. Zucchelli.
112. Prompt vT background in wide band v^ beams. Nucl. Instr. Meth. A385 (1997) 91.
113. M.C. Gonsalez-Gareia and J.J. Gomez-Cadenas.
114. Prompt vT fluxes in present and future т neutrino experiments. Phys. Rev. D55 (1997) 1297.39. S. Sorrentino.
115. GBEAM, the neutrino beam simulations. CHORUS Internal Note 98 005, May 1998-
116. S. Sorrentino, private communications.
117. CHORUS Collaboration, E. Eskut et al.
118. New results from a search for v^—> uT and > uT oscillation. Phys. Lett. B497 (2001) 8.41. (a) R.G.C. Oldeman.
119. Experimental study of charged-current neutrino interactions on lead. PhD thesis, 2000-b) R.G.C. Oldeman.
120. Experimental study of charged-current neutrino interactions on lead. Draft of the PhD thesis, 1999.
121. M. Doucet and R.G.C. Oldeman.
122. Determination of the relative WANF beam spectrum using a y-intercept technique. CHORUS Internal Note 98 015, 22 January 1999.
123. Castagneto, private communications.
124. CHORUS Collaboration, E. Eskut et al.
125. Observation of weak neutral current neutrino production of J/ф. Phys. Lett. B503 (2001) 1.
126. Tsukerman and CHORUS Collaboration.
127. Observation of J/ф production via neutral currents in muon neutrino interactionswith nucleons in CHORUS.
128. Surveys in High Energy Physics, 2001 (in print).44. D. Rondeshagen.
129. Myonneutrinoinduzierte Trident-Produktion im CHORUS-Experiment. PhD Thesis, Westphalischen Wilhelmsuniversitat Munster, Munster, 1999.
130. NOMAD Collaboration, J. Altegoer et al.
131. A search for v^—У vT oscillations using the NOMAD detector. Phys. Lett. B431 (1998) 219.
132. P. Gorbunov and T. Wolff, private communications.47. E.H.M. Heijne.
133. Muon flux measurement with silicon detectors in the CERN neutrino beams. CERN Yellow Report 83−06, July 1983−1. G. Acquistapace et al.
134. The west area neutrino facility for CHORUS and NOMAD experiments94 97 operation).
135. Preprint CERN-ECP/95−14, July 1995.48. R. Wigmans.
136. On the energy resolution of uranium and other hadron calorimeters. Nucl. Instr. Meth. A259 (1987) 389.49. G. Marel et al.1.rge planar drift chambers. Nucl. Instr. Meth. 141 (1977) 43.50. D. Geiregat et al.
137. Calibration and performance of the CHARM-II detector. Nucl. Instr. Meth. A325 (1993) 92.51. M. Holder et al.
138. A detector for high-energy neutrino interactions. Nucl. Instr. Meth. 148 (1978) 235−1. H. Abramowicz et al.
139. The response and resolution of an iron-scintillator calorimeter for hadronic and electromagnetic showers between 10 GeV and 140 GeV. Nucl. Instr. Meth. 180 (1981) 429.
140. A. Artamonov, private communications.
141. R. Ferreira, K. Nakamura and CHORUS trigger group. Study of calorimeter trigger efficiency.
142. CHORUS Internal report, July 14, 1997.
143. K. Nakamura, private communications.55. P. Zucchelli.
144. Tecniche calorimetriche per la selezione cinematica degli eventi nell’esperimento CHORUS.
145. Ph.D. Thesis, Universita degli Studi di Ferrara, Ferrara, Italy, 1992/1994−1. P. Zucchelli. p™iss study of v interactions in CHORUS. CHORUS Internal Note 96 003, 18.09.95-
146. Tsukerman and P. Zucchelli. JETTA: physics and manual. CHORUS Internal Note 1 001, May 2001.
147. EFICASS CHORUS MC simulation program, version 1.11/03++.
148. GEANT, Detector description and simulation tool. CERN Program library long writeup W5013.58. T. Sjostrand.
149. High energy physics event generation with PYTHIA 5.7 and JETSET 7.4. Comput. Phys. Commun. 82 (1994) 74-
150. T. Sjostrand, PYTHIA 5.7 and JETSET 7.4, physics and manual. CERN Program library long writeup W5035/W5044.59. G. Ingelman.
151. PTO version 6.1 the LUND Monte Carlofor deep inelastic lepton-nucleon scattering.
152. Preprint TSL/ISV-92−0065, Uppsala University, May 1992.60. Z. Was.
153. Radiative corrections. Preprint CERN-TH 7151/91:32, January 1991- Z. Was.
154. The т decay library tauola, update with exact O (a) QED correctionsin r —>¦ jxvv decay modes.
155. Comput. Phys. Commun. 70 (1992) 69−1. Z. Was.
156. The r decay library tauola, version 2.4. Comput. Phys. Commun. 76 (1993) 361.
157. E. Eichten, I. Hinchliffe, K. Lane and C. Quigg. Supercollider physics.
158. Rev. Mod. Phys. 56 (1984) 579- Erratum: 58 (1986) 1065.62. C. Peterson et al.
159. Scaling violations in inclusive e+e~- annihilation spectra. Phys. Rev. D27 (1983) 101.63. Y. Lemaitre.
160. Production inclusive de particules charmees par interaction neutrino-nucleon dans 1'experience CHARM II.
161. PhD Thesis, University Catholique de Louvain, Louvain, Belgium, 1995.
162. J. Brunner (with contributions from M. van der Donckt, D. Cussans, H. Meinhard). CHORAL Manual Revision 1.3, 1999, version 2.19/03.65. R. Oldeman.
163. Study of charged current deep inelastic events in the CHORUS calorimeter. CHORUS Internal Note 97 020, September 21, 1997.
164. I. Zuckerman. Non-emulsion CATT DST. CHORUS Internal Note 98 011.
165. A. Artamonov, private communications.
166. C.A.F.J. van der Poel, private communications.
167. CDHS Collaboration, J.G.H. de Groot et al.1.vestigation of like-sign dimuon production in neutrino and antineutrino reactions. Phys. Lett. B86 (1979) 103.
168. CDHS Collaboration, J.G.H. de Groot et al.
169. Characteristics of trimuon events observed in high energy neutrino interactions. Nucl. Phys. В142 (1978) 381.
170. CERN Program Library Long Writeup Y250,
171. HBOOK Reference Manual, version 4.22, subroutine HMCMLL.
172. A. Artamonov et al. DICE95.
173. ATLAS Internal Note ATLAS-SOFT-95/14c, 15 January 1996.73. R. Oldeman.
174. Measurement of the beam flux from charged-current neutrino interactionsin the CHORUS calorimeter.
175. CHORUS internal note 98 001, March 14, 1998.
176. CDHS Collaboration, J.G.H. de Groot et al.1.clusive interactions of high-energy neutrinos and antineutrinos in iron. Z. Phys. CI (1979) 143.