Measurement of the top quark mass with the collider detector at Fermilab

Physical Review D - Particles, Fields, Gravitation and Cosmology

Volumn 63, Issue 3, 2001, Pages

  Affolder, T ^u   Akimoto, H ^aq   Akopian, A ^aj   Albrow, M G ^j   Amaral, P ^g   Amendolia, S R ^af   Amidei, D ^x   Anikeev, K ^v   Antos, J ^a   Apollinari, G ^j   Arisawa, T ^aq   Asakawa, T ^ao   Ashmanskas, W ^g   Atac, M ^j   Azfar, F ^ac   Azzi Bacchetta, P ^ad   Bacchetta, N ^ad   Bailey, M W ^z   Bailey, S ⁿ   Barbaro, P ^ai   Barbaro Galtieri, A ^u   Barnes, V E ^ah   Barnett, B A ^q   Barone, M ^l   Bauer, G ^v   Bedeschi, F ^af   Belforte, S ^an   Bellettini, G ^af   Bellinger, J ^ar   Benjamin, D ⁱ   Bensinger, J ^d   Beretvas, A ^j   Berge, J P ^j   Berryhill, J ^g   Bevensee, B ^ae   Bhatti, A ^aj   Binkley, M ^j   Bisello, D ^ad   Blair, R E ^b   Blocker, C ^d   Bloom, K ^x   Blumenfeld, B ^q   Blusk, S R ^ai   Bocci, A ^af   Bodek, A ^ai   Bokhari, W ^ae   Bolla, G ^ah   Bonushkin, Y ^e   Bortoletto, D ^ah   Boudreau, J ^ag   Brandl, A ^z   van den Brink, S ^q   Bromberg, C ^y   Brozovic, M ⁱ   Bruner, N ^z   Buckley Geer, E ^j   Budagov, J ^h   Budd, H S ^ai   Burkett, K ⁿ   Busetto, G ^ad   Byon Wagner, A ^j   Byrum, K L ^b   Calafiura, P ^u   Campbell, M ^x   Carithers, W ^u   Carlson, J ^x   Carlsmith, D ^ar   Cassada, J ^ai   Castro, A ^ad   Cauz, D ^an   Cerri, A ^af   Chan, A W ^a   Chang, P S ^a   Chang, P T ^a   Chapman, J ^x   Chen, C ^ae   Chen, Y C ^a   Cheng, M ^a   Chertok, M ^al   Chiarelli, G ^af   Chirikov Zorin, I ^h   Chlachidze, G ^h   Chlebana, F ^j   Christofek, L ^p   Chu, M L ^a   Chung, Y S ^ai   Ciobanu, C I ^aa   Clark, A G ^m   Connolly, A ^u   Conway, J ^ak   Cooper, J ^j   Cordelli, M ^l   Cranshaw, J ^am   Cronin Hennessy, D ⁱ   Cropp, R ^w   Culbertson, R ^g   Dagenhart, D ^ap   DeJongh, F ^j   Dell'Agnello S ^l   Dell'Orso M ^af   Demina, R ^j   Demortier, L ^aj   Deninno, M ^c   Derwent, P F ^j   Devlin, T ^ak   Dittmann, J R ^j   Donati, S ^af   Done, J ^al   Dorigo, T ⁿ   Eddy, N ^p   Einsweiler, K ^u   Elias, J E ^j   Engels, E ^ag   Erdmann, W ^j   Errede, D ^p   Errede, S ^p   Fan, Q ^ai   Feild, R G ^as   Ferretti, C ^af   Field, R D ^k   Fiori, I ^c   Flaugher, B ^j   Foster, G W ^j   Franklin, M ⁿ   Freeman, J ^j   Friedman, J ^v   Fukui, Y ^t   Furic, I ^v   Galeotti, S ^af   Gallinaro, M ^aj   Gao, T ^ae   Garcia Sciveres, M ^u   Garfinkel, A F ^ah   Gatti, P ^ad   Gay, C ^as   Geer, S ^j   Gerdes, D W ^x   Giannetti, P ^af   Giromini, P ^l   Glagolev, V ^h   Gold, M ^z   Goldstein, J ^j   Gordon, A ⁿ   Goshaw, A T ⁱ   Gotra, Y ^ag   Goulianos, K ^aj   Green, C ^ah   Groer, L ^ak   Grosso Pilcher, C ^g   Guenther, M ^ah   Guillian, G ^x   Guimaraes da Costa, J ⁿ   Guo, R S ^a   Haas, R M ^k   Haber, C ^u   Hafen, E ^v   Hahn, S R ^j   Hall, C ⁿ   Handa, T ^o   Handler, R ^ar   Hao, W ^am   Happacher, F ^l   Hara, K ^ao   Hardman, A D ^ah   Harris, R M ^j   Hartmann, F ^r   Hatakeyama, K ^aj   Hauser, J ^e   Heinrich, J ^ae   Heiss, A ^r   Herndon, M ^q   Hinrichsen, B ^w   Hoffman, K D ^ah   Holck, C ^ae   Hollebeek, R ^ae   Holloway, L ^p   Hughes, R ^aa   Huston, J ^y   Huth, J ⁿ   Ikeda, H ^ao   Incandela, J ^j   Introzzi, G ^af   Iwai, J ^aq   Iwata, Y ^o   James, E ^x   Jensen, H ^j   Jones, M ^ae   Joshi, U ^j   Kambara, H ^m   Kamon, T ^al   Kaneko, T ^ao   Karr, K ^ap   Kasha, H ^as   Kato, Y ^ab   Keaffaber, T A ^ah   Kelley, K ^v   Kelly, M ^x   Kennedy, R D ^j   Kephart, R ^j   Khazins, D ⁱ   Kikuchi, T ^ao   Kilminster, B ^ai   Kirby, M ⁱ   Kirk, M ^d   Kim, B J ^s   Kim, D H ^s   Kim, H S ^p   Kim, M J ^s   Kim, S H ^ao   Kim, Y K ^u   Kirsch, L ^d   Klimenko, S ^k   Koehn, P ^aa   Kongeter A ^r   Kondo, K ^aq   Konigsberg, J ^k   Kordas, K ^w   Korn, A ^v   Korytov, A ^k   Kovacs, E ^b   Kroll, J ^ae   Kruse, M ^ai   Kuhlmann, S E ^b   Kurino, K ^o   Kuwabara, T ^ao   Laasanen, A T ^ah   Lai, N ^g   Lami, S ^aj   Lammel, S ^j   Lamoureux, J I ^d   Lancaster, M ^u   Latino, G ^af   LeCompte, T ^b   Lee, A M ⁱ   Lee, K ^am   Leone, S ^af   Lewis, J D ^j   Lindgren, M ^e   Liss, T M ^p   Liu, J B ^ai   Liu, Y C ^a   Lockyer, N ^ae   Loken, J ^ac   Loreti, M ^ad   Lucchesi, D ^ad   Lukens, P ^j   Lusin, S ^ar   Lyons, L ^ac   Lys, J ^u   Madrak, R ⁿ   Maeshima, K ^j   Maksimovic, P ⁿ   Malferrari, L ^c   Mangano, M ^af   Mariotti, M ^ad   Martignon, G ^ad   Martin, A ^as   Matthews, J A J ^z   Mayer, J ^w   Mazzanti, P ^c   McFarland, K S ^ai   McIntyre, P ^al   McKigney, E ^ae   Menguzzato, M ^ad   Menzione, A ^af   Mesropian, C ^aj   Meyer, A ^g   Miao, T ^j   Miller, R ^y   Miller, J S ^x   Minato, H ^ao   Miscetti, S ^l   Mishina, M ^t   Mitselmakher, G ^k   Moggi, N ^c   Moore, E ^z   Moore, R ^x   Morita, Y ^t   Mulhearn, M ^v   Mukherjee, A ^j   Muller, T ^r   Munar, A ^af   Murat, P ^j   Murgia, S ^y   Musy, M ^an   Nachtman, J ^e   Nahn, S ^as   Nakada, H ^ao   Nakaya, T ^g   Nakano, I ^o   Nelson, C ^j   Neuberger, D ^r   Newman Holmes, C ^j   Ngan, C Y P ^v   Nicolaidi, P ^an   Niu, H ^d   Nodulman, L ^b   Nomerotski, A ^k   Oh, S H ⁱ   Ohmoto, T ^o   Ohsugi, T ^o   Oishi, R ^ao   Okusawa, T ^ab   Olsen, J ^ar   Orejudos, W ^u   Pagliarone, C ^af   Palmonari, F ^af   Paoletti, R ^af   Papadimitriou, V ^am   Pappas, S P ^as   Partos, D ^d   Patrick, J ^j   Pauletta, G ^an   Paulini, M ^u   Paus, C ^v   Pescara, L ^ad   Phillips, T J ⁱ   Piacentino, G ^af   Pitts, K T ^p   Plunkett, R ^j   Pompos, A ^ah   Pondrom, L ^ar   Pope, G ^ag   Popovic, M ^w   Prokoshin, F ^h   Proudfoot, J ^b   Ptohos, F ^l   Pukhov, O ^h   Punzi, G ^af   Ragan, K ^w   Rakitine, A ^v   Reher, D ^u   Reichold, A ^ac   Riegler, W ⁿ   Ribon, A ^ad   Rimondi, F ^c   Ristori, L ^af   Robertson, W J ⁱ   Robinson, A ^w   Rodrigo, T ^f   Rolli, S ^ap   Rosenson, L ^v   Roser, R ^j   Rossin, R ^ad   Safonov, A ^aj   Sakumoto, W K ^ai   Saltzberg, D ^e   Sansoni, A ^l   Santi, L ^an   Sato, H ^ao   Savard, P ^w   Schlabach, P ^j   Schmidt, E E ^j   Schmidt, M P ^as   Schmitt, M ⁿ   Scodellaro, L ^ad   Scott, A ^e   Scribano, A ^af   Segler, S ^j   Seidel, S ^z   Seiya, Y ^ao   Semenov, A ^h   Semeria, F ^c   Shah, T ^v   Shapiro, M D ^u   Shepard, P F ^ag   Shibayama, T ^ao   Shimojima, M ^ao   Shochet, M ^g   Siegrist, J ^u   Signorelli, G ^af   Sill, A ^am   Sinervo, P ^w   Singh, P ^p   Slaughter, A J ^as   Sliwa, K ^ap   Smith, C ^q   Snider, F D ^j   Solodsky, A ^aj   Spalding, J ^j   Speer, T ^m   Sphicas, P ^v   Spinella, F ^af   Spiropulu, M ⁿ   Spiegel, L ^j   Steele, J ^ar   Stefanini, A ^af   Strologas, J ^p   Strumia, F ^m   Stuart, D ^j   Sumorok, K ^v   Suzuki, T ^ao   Takano, T ^ab   Takashima, R ^o   Takikawa, K ^ao   Tamburello, P ⁱ   Tanaka, M ^ao   Tannenbaum, B ^e   Taylor, W ^w   Tecchio, M ^x   Teng, P K ^a   Terashi, K ^aj   Tether, S ^v   Theriot, D ^j   Thurman Keup, R ^b   Tipton, P ^ai   Tkaczyk, S ^j   Tollefson, K ^ai   Tollestrup, A ^j   Toyoda, H ^ab   Trischuk, W ^w   Troconiz, J F ⁿ   Tseng, J ^v   Turini, N ^af   Ukegawa, F ^ao   Vaiciulis, T ^ai   Valls, J ^ak   Vejcik III, S ^j   Velev, G ^j   Vidal, R ^j   Vilar, R ^f   Volobouev, I ^u   Vucinic, D ^v   Wagner, R G ^b   Wagner, R L ^j   Wahl, J ^g   Wallace, N B ^ak   Walsh, A M ^ak   Wang, C ⁱ   Wang, C H ^a   Wang, M J ^a   Watanabe, T ^ao   Waters, D ^ac   Watts, T ^ak   Webb, R ^al   Wenzel, H ^r   Wester III, W C ^j   Wicklund, A B ^b   Wicklund, E ^j   Williams, H H ^ae   Wilson, P ^j   Winer, B L ^aa   Winn, D ^x   Wolbers, S ^j   Wolinski, D ^x   Wolinski, J ^y   Wolinski, S ^x   Worm, S ^z   Wu, X ^m   Wyss, J ^af   Yagil, A ^j   Yao, W ^u   Yeh, G P ^j   Yeh, P ^a   Yoh, J ^j   Yosef, C ^y   Yoshida, T ^ab   Yu, I ^s   Yu, S ^ae   Yu, Z ^as   Zanetti, A ^an   Zetti, F ^u   Zucchelli, S ^c   more..

^a INSTITUTE OF PHYSICS   (Taiwan)

^b ARGONNE NATIONAL LABORATORY   (United States)

^c UNIVERSITY OF BOLOGNA   (Italy)

^d BRANDEIS UNIVERSITY   (United States)

^e UNIVERSITY OF CALIFORNIA   (United States)

^f UNIVERSITY OF CANTABRIA   (Spain)

^g UNIVERSITY OF CHICAGO   (United States)

^h JOINT INSTITUTE FOR NUCLEAR RESEARCH   (Russian Federation)

ⁱ DUKE UNIVERSITY   (United States)

^j FERMI NATIONAL ACCELERATOR LABORATORY   (United States)

^k UNIVERSITY OF FLORIDA   (United States)

^l INFN LABORATORI NAZIONALI DI FRASCATI   (Italy)

^m UNIVERSITY OF GENEVA   (Switzerland)

ⁿ HARVARD UNIVERSITY   (United States)

^o HIROSHIMA UNIVERSITY   (Japan)

^p UNIVERSITY OF ILLINOIS AT URBANA CHAMPAIGN   (United States)

^q JOHNS HOPKINS UNIVERSITY   (United States)

^r UNIVERSITY OF KARLSRUHE   (Germany)

^s Kyungpook National University   (South Korea)

^t HIGH ENERGY ACCELERATOR RESEARCH ORGANIZATION KEK   (Japan)

^u LAWRENCE BERKELEY NATIONAL LABORATORY   (United States)

^v MASSACHUSETTS INSTITUTE OF TECHNOLOGY   (United States)

^w MCGILL UNIVERSITY   (Canada)

^x UNIVERSITY OF MICHIGAN   (United States)

^y MICHIGAN STATE UNIVERSITY   (United States)

^z UNIVERSITY OF NEW MEXICO   (United States)

^aa OHIO STATE UNIVERSITY   (United States)

^ab Osaka Prefecture University   (Japan)

^ac UNIVERSITY OF OXFORD   (United Kingdom)

^ad UNIVERSITY OF PADOVA   (Italy)

^ae UNIVERSITY OF PENNSYLVANIA   (United States)

^af SCUOLA NORMALE SUPERIORE   (Italy)

^ag UNIVERSITY OF PITTSBURGH   (United States)

^ah PURDUE UNIVERSITY   (United States)

^ai UNIVERSITY OF ROCHESTER   (United States)

^aj ROCKEFELLER UNIVERSITY   (United States)

^ak RUTGERS UNIVERSITY   (United States)

^al TEXAS A AND M UNIVERSITY   (United States)

^am TEXAS TECH UNIVERSITY   (United States)

^an UNIVERSITY OF TRIESTE   (Italy)

^ao UNIVERSITY OF TSUKUBA   (Japan)

^ap TUFTS UNIVERSITY   (United States)

^aq WASEDA UNIVERSITY   (Japan)

^ar UNIVERSITY OF WISCONSIN MADISON   (United States)

^as YALE UNIVERSITY   (United States)

more..

Author keywords

[No Author keywords available]

Indexed keywords

ARTICLE; ENERGY; LUMINANCE; MASS; MEASUREMENT; NUCLEAR PHYSICS; PHYSICAL PHENOMENA;

EID: 14344269540     PISSN: 15507998     EISSN: 15502368     Source Type: Journal    
DOI: 10.1103/PhysRevD.63.032003     Document Type: Article

References (103)

1. F. Abe, Phys. Rev. D 50, 2966 (1994);
2. F. AbePhys. Rev. Lett. 73, 225 (1994).
3. F. Abe, Phys. Rev. Lett. 74, 2626 (1995).
4. S. Abachi, Phys. Rev. Lett. 74, 2632 (1995).
5. F. Abe, Phys. Rev. Lett. 75, 3997 (1995);
6. F. Abe, Phys. Rev. D 51, 4623 (1995).
7. S. Abachi, Phys. Rev. Lett. 79, 1197 (1997).
8. B. Abbott, Phys. Rev. D 58, 052001 (1998).
9. F. Abe, Phys. Rev. Lett. 80, 2767 (1998).
10. F. Abe, Phys. Rev. Lett. 80, 2773 (1998).
11. S. Abachi, Phys. Rev. Lett. 79, 1203 (1997).
12. F. Abe, Phys. Rev. D 59, 092001 (1999).
13. B. Abbott, Phys. Rev. Lett. 85, 256 (2000).
14. F. Abe, Phys. Rev. Lett. 79, 1992 (1997).
15. B. Abbott, Phys. Rev. Lett. 83, 1908 (1999);
16. B. AbbottPhys. Rev. D 60, 012001 (1999).
17. F. Abe, Phys. Rev. Lett. 80, 2779 (1998).
18. B. Abbott, Phys. Rev. Lett. 80, 2063 (1998).
19. M. Jezabek and J. H. Kuhn, Phys. Rev. D 48, 1910 (1993);
20. Phys. Rev. DM. JezabekJ. H. Kuhn49, 4970(E) (1994).
21. I. I. Bigi, Yu. L. Dokshitzer, V. A. Khoze, J. H. Kuhn, and P. Zerwas, Phys. Lett. B 181, 157 (1986).
22. S. L. Glashow, Nucl. Phys. 22, 579 (1961);
23. S. Weinberg, Phys. Rev. Lett. 19, 1264 (1967);
24. A. Salam, in Elementary Particle Theory: Relativistic Groups and Analyticity (Nobel Symposium No. 8), edited by N. Svartholm (Almqvist and Wiksell, Sweden, 1968), p. 367.
25. The LEP Collaborations, the LEP Electroweak Working Group and the SLD Heavy Flavor and Electroweak Groups, CERN-EP/99-15 (1999).
26. F. Abe, Phys. Rev. Lett. 79, 3585 (1997).
27. F. Abe, Nucl. Instrum. Methods Phys. Res. A 271, 387 (1988).
28. F. Bedeschi, Nucl. Instrum. Methods Phys. Res. A 268, 50 (1988).
29. The pseudorapidity η is defined as (Formula presented) where θ is the polar angle measured relative to the positive z axis (taken as the direction of the outgoing proton beam) assuming a z-vertex position of zero. For the mass fit discussed in Sec. VI we recalculate η using the measured z-vertex position for each event.
30. F. Snider, Nucl. Instrum. Methods Phys. Res. A 268, 75 (1988). This is the reference for the previous generation of the device. The replacement for the run 1 data sample has more modules, each with a shorter drift length but is otherwise similar.
31. F. Abe, Phys. Rev. Lett. 76, 3070 (1996).
32. P. Azzi, Nucl. Instrum. Methods Phys. Res. A 360, 137 (1995), for run 1b.
33. Nucl. Instrum. Methods Phys. Res. AD. Amidei, 350, 73 (1994);
34. Nucl. Instrum. Methods Phys. Res. AD. Amidei, 342, 251 (1994);
35. Nucl. Instrum. Methods Phys. Res. AC. Haber, 289, 388 (1990); for run 1a.
36. G. Ascoli, Nucl. Instrum. Methods Phys. Res. A 268, 33 (1988);
37. Nucl. Instrum. Methods Phys. Res. AG. Ascoli, 268, 41 (1988).
38. L. Balka, Nucl. Instrum. Methods Phys. Res. A 267, 272 (1988);
39. Nucl. Instrum. Methods Phys. Res. AS. R. Hahn, 267, 351 (1988);
40. Nucl. Instrum. Methods Phys. Res. AK. Yasuoka, 267, 315 (1988);
41. Nucl. Instrum. Methods Phys. Res. AR. G. Wagner, 267, 330 (1988);
42. Nucl. Instrum. Methods Phys. Res. AT. Devlin, 268, 24 (1988).
43. S. Bertolucci, Nucl. Instrum. Methods Phys. Res. A 267, 301 (1988).
44. The unclustered energy consists of the total energy which is not contained in jets with (Formula presented) and (Formula presented)
45. The missing (Formula presented) is defined to be the magnitude of the vector sum of the raw transverse energies in all calorimeter towers with (Formula presented) Only towers which exceed a detector-dependent energy threshold are included in the sum 1.
46. A fiducial lepton is required to be within a well-understood region of the CEM which allows for good lepton identification.
47. F. Abe, Phys. Rev. D 52, 4784 (1995);
48. F. Abe, Phys. Rev. Lett. 75, 11 (1995).
49. The isolation, I, is defined as the (Formula presented) within a cone of (Formula presented) centered on the lepton, but excluding the lepton energy, divided by the (Formula presented) of the lepton.
50. F. Abe, Phys. Rev. D 45, 1448 (1992).
51. F. Abe et al., “Measurement of the production cross section (Formula presented) in (Formula presented) collisions at (Formula presented)”
52. D. Kestenbaum, Ph.D. thesis, Harvard University, 1996.
53. F. Abe, Phys. Rev. Lett. 73, 2662 (1994).
54. K. Tollefson, Ph.D. thesis, University of Rochester, 1997.
55. A. D. Martin, R. G. Roberts, and W. J. Stirling, Phys. Lett. B 306, 145 (1993).
56. P. Avery, K. Read, and G. Trahern, Cornell Internal Note CSN-212, 1985. We use Version 9_1 with a b lifetime of 1.45 ps.
57. G. Marchesini and B. R. Webber, Nucl. Phys. B310, 461 (1988);
58. G. Marchesini, Comput. Phys. Commun. 67, 465 (1992).
59. T. Sjöstrand, Comput. Phys. Commun. 39, 347 (1986);
60. Comput. Phys. Commun.T. Sjöstrand and M. Bengtsson, 43, 367 (1987);
61. Comput. Phys. Commun.T. SjöstrandM. Bengtsson46, 43 (1987).
62. F. Paige and S. D. Protopopescu, BNL Report No. 38034, 1986.
63. F. A. Berends, W. T. Giele, H. Kuijf, and B. Tausk, Nucl. Phys. B357, 32 (1991).
64. J. Benlloch, in Proceedings of the 1992 DPF Meeting, Batavia, Illinois, 1992, edited by C. H. Albright (World Scientific, Singapore, 1993), p. 1091.
65. F. Abe, Phys. Rev. Lett. 79, 4760 (1997).
66. CDF Collaboration, F. Ptohos, in Proceedings of the International Europhysics Conference on High Energy Physics 99, Tampere, Finland, 1999.
67. J. Ohnemus and J. F. Owens, Phys. Rev. D 43, 3626 (1991).
68. T. Stelzer, Z. Sullivan, and S. Willenbrock, Phys. Rev. D 58, 094021 (1998);
69. Phys. Rev. DT. Stelzer, Z. Sullivan, and S. Willenbrock, 56, 5919 (1997);
70. Phys. Rev. DM. C. Smith and S. Willenbrock, 54, 6696 (1996);
71. T. Stelzer and S. Willenbrock, Phys. Lett. B 357, 125 (1995).
72. Raw jet energies are the observed values after performing the jet clustering, but prior to any corrections. The raw jet energies are used to select the data samples and are used in defining the four highest (Formula presented) jets.
73. F. Abe, Phys. Rev. D 47, 4857 (1993).
74. F. Abe, Phys. Rev. Lett. 77, 438 (1996).
75. P. Bagnaia, Phys. Lett. 144B, 283 (1984).
76. M. Lancaster, in Results and Perspectives in Particle Physics, Proceedings of “Les Rencontres de Physique de la Vallée d’Aoste,” La Thuile, 1997, edited by M. Greco, Frascati Physics Series Vol. 9 (Istituto Nazionale de Fisica Nucleare, Frascati, Italy, 1997), pp. 233–252.
77. MINUIT Reference Manual, CERN Program Library Entry D506, 1994.
78. O. Dahl, T. Day, F. Solmitz, and N. Gould, Lawrence Berkeley Lab, Alvarez Group Programming Note P-126 (1968).
79. F. Abe, Phys. Rev. Lett. 74, 341 (1995).
80. L. Orr, T. Stelzer, and W. J. Stirling, Phys. Rev. D 52, 124 (1995);
81. L. OrrT. StelzerW. J. StirlingPhys. Lett. B 354, 442 (1995).
82. S. Bettelli, Ph.D. thesis, University of Pisa, 1996.
83. N. Eddy, Ph.D. thesis, University of Michigan, 1998.
84. G. Altarelli and G. Parisi, Nucl. Phys. B126, 298 (1977);
85. Yu. L. Dokshitzer, Zh. Eksp. Teor. Fiz. 73, 1216 (1977) [Sov. Phys. JETP 46, 641 (1977)];
86. V. N. Gribov and L. N. Lipatov, Yad. Fiz. 15, 781 (1972) [Sov. J. Nucl. Phys. 15, 438 (1972)].
87. H. L. Lai, Phys. Rev. D 55, 1280 (1997).
88. F. Abe, Phys. Rev. D 50, 5562 (1994).
89. F. Abe, Phys. Rev. Lett. 82, 271 (1999);
90. Phys. Rev. Lett.F. Abe82, 2008(E) (1999).
91. K. Kondo, J. Phys. Soc. Jpn. 57, 4126 (1988);
92. J. Phys. Soc. Jpn.K. Kondo60, 836 (1991).
93. E. W. Varnes, Ph.D. thesis, University of California, Berkeley, 1997.
94. Particle Data Group, C. Caso, Eur. Phys. J. C 3, 1 (1998), p. 173.
95. L. Demortier, R. Hall, R. Hughes, B. Klima, R. Roser, and M. Strovink, Fermilab Report No. FERMILAB-TM-2084 (1999).
96. M. Lanzoni, Master’s thesis, University of Pisa, 1996.
97. D. Buskulic, Phys. Lett. B 313, 535 (1992).
98. F. Abe, Phys. Rev. D 53, 1051 (1996).
99. D. Buskulic, Phys. Lett. B 284, 177 (1992);
100. Phys. Lett. BP. Abreu, 322, 459 (1994);
101. Phys. Lett. BR. Akers, 327, 411 (1994).
102. Monte Carlo studies showed that the jet probability distributions for light quark and gluon jets were similar, so that a single non-b probability distribution was used.
103. S. Aota, Ph.D. thesis, University of Tsukuba, 1997.