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Quantum Chromodynamics and its Applications

  • J. Ellis
  • C. T. Sachrajda
Conference paper
Part of the NATO Advanced Study Institutes Series book series (NSSB, volume 61)

Abstract

It is generally accepted that hadrons contain quarks as more fundamental constituents of matter.

Keywords

Anomalous Dimension Operator Product Expansion Deep Inelastic Scattering Quantum CHROMODYNAMICS Mass Singularity 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. (1).
    For reviews and references, see H.D. Politzer, Phys. Rep. 14C, 129 (1974)ADSCrossRefGoogle Scholar
  2. (1a).
    W. Marciano and H. Pagels, Phys. Rep. 36C, 137 (1978).ADSCrossRefGoogle Scholar
  3. (2).
    For a review, see Yu. L. Dokshitzer, D.I. D’yakonov and S.I. Troyan, Hard processes in QCD, Phys. rep. C (in press).Google Scholar
  4. (3).
    Proc. 19th Int. Conf. on High Energy Physics, Tokyo, 1978 (ed. S. Homma, M. Kawaguchi and H. Miyazawa) (Physical Society of Japan, Tokyo, 1978), Sections A5, A6 and A7.Google Scholar
  5. (4).
    (4) A. De Rújula, H. Georgi and S.L. Glashow, Phys. Rev. D12, 147 (1975) and see the report by G. Karl, p. 135 of ref. 3.ADSGoogle Scholar
  6. (5).
    J.D. Jackson, C. Quigg and J.L. Rosner, p. 391 of ref. 3.Google Scholar
  7. (6).
    See for example B. Renner, Current algebra and its applications (Pergamon, Oxford, 1968)Google Scholar
  8. (6a).
    S.B. Treiman, R. Jackiw and D.J. Gross, Lectures in current algebra and its applications (Princeton University Press, NJ, 1972).Google Scholar
  9. (7).
    S.L. Adler, Lectures on elementary particles and quantum field theory, 1970 Brandeis Summer Institute (eds. S. Deser, M. Grisaru and H. Pendleton), (MIT Press, Cambridge, 1971), p. 1Google Scholar
  10. (7a).
    and R. Jackiw, ref. 6.Google Scholar
  11. (8).
    S.L. Glashow and S. Weinberg, Phys. Rev. Lett. 20, 224(1968)ADSCrossRefGoogle Scholar
  12. (8a).
    M. Gell-Mann, R.J. Oakes and B. Renner, Phys. Rev. 175, 2195 (1968).ADSCrossRefGoogle Scholar
  13. (9).
    J.D. Bjorken, Phys. Rev. 179, 1547 (1969).ADSCrossRefGoogle Scholar
  14. (10).
    R.P. Feynman, Phys. Rev. Lett. 23, 14l5 (1969CrossRefGoogle Scholar
  15. (10a).
    J-D. Bjorken and E.A. Paschos, Phys. Rev. 178, 1975 (1969)ADSCrossRefGoogle Scholar
  16. (10b).
    R.P.- Feynman, Photon-hadron interactions (Benjamin, NY, 1972).Google Scholar
  17. (11).
    S. Coleman and D.J. Gross, Phys. Rev. Lett. 31, 851 (1973).ADSCrossRefGoogle Scholar
  18. (12).
    G. ’t Hooft, unpublished, 1972Google Scholar
  19. (12a).
    H.D. Politzer, Phys. Rev. Lett. 30, 1346 (1973)ADSCrossRefGoogle Scholar
  20. (12b).
    D.J. Gross and F.A. Wilczek, Phys. Rev. Lett. 30, 1343 (1973).ADSCrossRefGoogle Scholar
  21. (13).
    Proc. EPS Int. Conf. on High Energy Physics, Geneva, 1979 (CERN, Geneva, 1979) (in press) and Proc. Int. Symposium on Lepton and Photon Interactions at High Energies, FNAL, Batavia, 1979 (in press).Google Scholar
  22. (14).
    K.G. Wilson, Phys. Rev. 179, 1499 (1969).MathSciNetADSCrossRefGoogle Scholar
  23. (15).
    See, for example, A.M. Polyakov, Proc. 1975 Int. Symp. on Lepton and Photon Interactions at High Energies, Stanford (ed. W.T. Kirk), (SLAC, Stanford, 1975), p. 855.Google Scholar
  24. (16).
    J. Ellis, M.K. Gaillard and G.G. Ross, Nucl. Phys. B111, 253 (1976).ADSCrossRefGoogle Scholar
  25. (17).
    Another motivation comes from consideration of symmetry violation when strong weak and electromagnetic interactions are combined together: see S. Weinberg, Phys. Rev. Lett.31, 494 (1993)ADSCrossRefGoogle Scholar
  26. (17a).
    D.V. Nanopoulos, Nuovo Cimento Lett. 8, 873 (1973)CrossRefGoogle Scholar
  27. (17b).
    A review of the classical arguments for QCD is given by H. Fritzsch, M. Gell-Mann and H. Leutwyler, Phys. Lett. 47B, 365 (1973).ADSGoogle Scholar
  28. (18).
    E.S. Abers and B.W. Lee, Phys. Rep. 9C, 1 (1973)ADSCrossRefGoogle Scholar
  29. (18a).
    J.C. Taylor, Gauge theories of weak interactions (Cambridge University Press, 1976).Google Scholar
  30. (19).
    For a pegagogical review, see S. Coleman, Proc. 1971 Int. Summer School of High Energy Physics “Ettore Majorana” (Ed. Compositori, Bologna, 1973). For a heavy-duty exposition, see W. Zimmerman, Lectures on Elementary particles and quantum field theory, 1970 Brandeis Summer Institute (eds. S. Deser, M. Grisaru and H. Pendleton) (MIT Press, Cambridge, 1971), p. 395.Google Scholar
  31. (20).
    G. ’t Hoolt and M. Veltman, Nucl. Phys. B44, 189 (1972) and Diagrammar, CERN 73–9 (1973).ADSGoogle Scholar
  32. (21).
    E.C.G. Stueckelberg and A. Peterman, Helv. Phys. Acta 26, 499 (1953)MathSciNetMATHGoogle Scholar
  33. (21a).
    M. Gell-Mann and F.E. Low, Phys. Rev. 95, 1300 (1954).MathSciNetADSMATHCrossRefGoogle Scholar
  34. (22).
    For a heuristic discussion in somewhat more detail, see J. Ellis, Weak and Electromagnetic interactions at High Energy, Les Houches Summer School, 1976 (eds. R. Balian and C.H. Llewellyn Smith) (North-Holland, Amsterdam, 1977), p. 1.Google Scholar
  35. (23).
    D.J. Gross and F.A. Wilczek, Phys. Rev. D8, 3633 (1973) and D9, 980 (1974)ADSGoogle Scholar
  36. (23a).
    H. Georgi and H.D. Politzer, Phys. Rev. D9, 416 (1974).ADSGoogle Scholar
  37. (24).
    T. Appelquist and H. Georgi, Phys. Rev. D8, 4000 (1973)ADSGoogle Scholar
  38. (24a).
    A. Zee, Phys. Rev. D8, 4038 (1973).ADSGoogle Scholar
  39. (25).
    The next term in the asymptotic expansion (67) has recently been computed: M. Dine and J. Sapirstein, Phys. Rev. Lett. 43, 668 (1979)ADSCrossRefGoogle Scholar
  40. (25a).
    K. Khetyrkin, A. Kataev and S. Tkachov, Phys. Lett. 85B, 277 (1979)ADSGoogle Scholar
  41. (25b).
    D.A. Ross, A.E. Terrano and S. Wolfram, private communicationGoogle Scholar
  42. (25c).
    W. Celmaster and R.J. Gonsalves, U.S. San Diego preprint UCSD-10 P?O-206 (1979). Its magnitude supports this perturbative conclusion.Google Scholar
  43. (26).
    C.H. Llewellyn Smith, Phys. Rep. 3C, 261 (1972).ADSCrossRefGoogle Scholar
  44. (27).
    For a review, see Y. Frishman, Phys. Rep. 13C, 1 (1974).ADSCrossRefGoogle Scholar
  45. (28).
    For some old lectures on this material, see J. Ellis and R.L. Jaffe, SLAC preprint SLAC-PUB-1253 (1973).Google Scholar
  46. (29).
    B.L. Ioffe, Phys. Lett. 30B, 123 (1969)ADSGoogle Scholar
  47. (29a).
    R.A. Brandt and G. Preparata, Nucl. Phys. B27, 541 (1971)ADSCrossRefGoogle Scholar
  48. (29b).
    Y. Frishman, Ann. Phys. (NY) 66, 373 (1971).MathSciNetADSCrossRefGoogle Scholar
  49. (30).
    J.M. Cornwall and R.E. Norton, Phys. Rev. 177, 2584 (1969).ADSCrossRefGoogle Scholar
  50. (31).
    N. Christ, B. Hasslacher and A.H. Mueller, Phys. Rev. D6, 3543 (1972)ADSGoogle Scholar
  51. (32).
    O. Nachtmann, Nucl. Phys. B63, 237 (1973).ADSCrossRefGoogle Scholar
  52. (33).
    S. Wandzura, Nucl. Phys. B112, 412 (1977).ADSCrossRefGoogle Scholar
  53. (34).
    P.C. Bosetti et al., Nucl. Phys. B142, 1 (1978)ADSCrossRefGoogle Scholar
  54. (34a).
    J.G.H. de Groot et al., Phys. Lett. 82B, 292 (1979).ADSGoogle Scholar
  55. (35).
    J. Ellis, Current trends in the theory of fields (eds. J.E. Lannutti and P.K. Williams) (A.I.P., NY, 1978), p. 81.Google Scholar
  56. (36).
    E. Reya, DESY preprint 79/02 (1979)Google Scholar
  57. (36a).
    M. Glück and E. Reya, DESY preprint 79/13 (1979).Google Scholar
  58. (37).
    L. Abbott and R.M. Barnett, SLAC preprint SLAC-PUB-2325 (1979).Google Scholar
  59. (38).
    H. Harari, SLAC preprint SLAC-PUB-2254 (1979).Google Scholar
  60. (39).
    A. Gonzalez-Arroyo, C. Lopez and F.J. Ynduráin, Universitad Autonoma de Madrid preprint FTUAM/79–3, and CERN preprint TH 2728 (1979).Google Scholar
  61. (40).
    (1+0) J. Ellis, CERN preprints TH 270 and TH 2701 and TH 2744 (1979)Google Scholar
  62. for recent comprehensive reviews on deep inelastic scattering and QCD, see A. Peterman, Phys. Rep. 53C, 157 (1979); A.J. Buras, Fermilab preprint PUB-79/17-THY (1979).MathSciNetADSCrossRefGoogle Scholar
  63. (41).
    A.De Rújula, J. Ellis, R. Petronzio, G. Preparata and W.G. Scott, Can one tell QCD from a hole in the ground?, A play in 5 acts, CERN preprint TH 2778 (1979).Google Scholar
  64. (42).
    (1+2) G. Altarelli and G. Parisi, Nucl. Phys. B123, 298 (1977).ADSCrossRefGoogle Scholar
  65. (43).
    E.G. Floratos, D.A. Ross and C.T. Sachrajda, Nucl. Phys. B129, 66 (1977), E B139, 545 (1978).ADSCrossRefGoogle Scholar
  66. (44).
    E.G. Floratos, D.A. Ross and C.T. Sachrajda, Nucl. Phys. B152, 493 (1979).ADSCrossRefGoogle Scholar
  67. (45).
    W. Caswell, Phys. Rev. Lett. 33, 224 (1974).ADSCrossRefGoogle Scholar
  68. (46).
    (1+6) D.R.T. Jones, Nucl. Phys. B75, 531 (1974).ADSCrossRefGoogle Scholar
  69. (47).
    A. Gonzalez-Arroyo, C. López and F.J. Ynduráin, Nucl. Phys. B153, 161 (1979).ADSCrossRefGoogle Scholar
  70. (48).
    (1+8) W.A. Bardeen, A.J. Buras, D.W. Duke and T. Muta, Phys. Rev. D18, 3998 (1978).ADSGoogle Scholar
  71. (49).
    E.G. Floratos, D.A. Ross and C.T. Sachrajda, Phys. Lett. 80B, 269 (1979).ADSGoogle Scholar
  72. (50).
    A. Para and C.T. Sachrajda, CERN preprint TH 2702 (1979) (to be published in Phys. Lett.).Google Scholar
  73. (51).
    J. de Groot et al., Z. Phys. C1, 143 (1979).ADSGoogle Scholar
  74. (52).
    D.W. Duke and R.G. Roberts, Phys. Lett. 85B, 289 (1979)ADSGoogle Scholar
  75. (52a).
    D.W. Duke, Rutherford Laboratory preprint RL-79–044 (1979).Google Scholar
  76. (53).
    M. Baće, Phys. Lett. 78B, 132 (1978).ADSGoogle Scholar
  77. (54).
    T.W. Quirk, J.B. MacAllister, W.S.C. Williams and C. Tao, Oxford University preprint (1979).Google Scholar
  78. (55).
    J. Wotschack, Structure function, A parameter and the Callan-Gross relation, Talk given at the 1979 EPS Conference on High Energy Physics, Geneva, 1979-Google Scholar
  79. (56).
    A.J. Buras, E.G. Floratos, D.A. Ross and C.T. Sachrajda, Nucl. Phys. B131, 308 (1977).ADSCrossRefGoogle Scholar
  80. (57).
    D.A. Ross, Caltech preprint 68–699 (1979).Google Scholar
  81. (58).
    D.A. Ross and C.T. Sachrajda, Nucl. Phys. B149, 497 (1979).ADSCrossRefGoogle Scholar
  82. (59).
    E.M. Riordan et al., SLAC-PUB-1634 (1975) (unpublished)Google Scholar
  83. (60).
    A.H. Mueller, Phys. Rev. D18, 3705 (1978).ADSGoogle Scholar
  84. (61).
    F. Bloch and A. Nordsieck, Phys. Rev. 52, 54 (1937).ADSCrossRefGoogle Scholar
  85. (62).
    D.R. Yennie, S.C. Frautschi and H. Suura, Ann. Phys. (NY) 13, 379 (1961).ADSCrossRefGoogle Scholar
  86. (63).
    Gastmans and R. Meuldermans, Nucl. Phys. B63, 277 (1973).ADSCrossRefGoogle Scholar
  87. (64).
    W.J. Marciano and A. Sirlin, Nucl. Phys. B88, 86 (1975).ADSCrossRefGoogle Scholar
  88. (65).
    T. Kinoshita, J. Math. Phys. 3, 650 (1962).ADSMATHCrossRefGoogle Scholar
  89. (66).
    T.D. Lee and M. Nauenberg, Phys. Rev. 133, 1549 (1964).MathSciNetADSCrossRefGoogle Scholar
  90. (67).
    See ref. 2 and also D.J. Pritchard and W.J. Stirling, Cambridge preprint DAMTP 79–1 (1979) and references therein.Google Scholar
  91. (68).
    V. Sudakov, Sov. Phys. JETP 3, 65 (1956).MathSciNetMATHGoogle Scholar
  92. (69).
    C.H. Llewellyn Smith, Acta Physica Austriaca, Suppl. 19, 331 (1978).Google Scholar
  93. (70).
    D. Amati, R. Petronzio and G. Veneziano, Nucl. Phys. B140, 54 (1978)ADSCrossRefGoogle Scholar
  94. (70a).
  95. (71).
    V.N. Gribov and I.N. Nipatov, Sov. J. Nucl. Phys. 15, 438 (1972).Google Scholar
  96. (72).
    E. Witten, Nucl. Phys. B120, 89 (1977).MathSciNetGoogle Scholar
  97. (73).
    C.H. Llewellyn Smith, Phys. Lett. B79, 83 (1978).Google Scholar
  98. (74).
    W.R. Frazer and J.F. Gunion, Phys. Rev. D20, 147 (1979).ADSGoogle Scholar
  99. (75).
    C.F. von Weizäcker, Z. Phys. 88, 612 (1934)ADSCrossRefGoogle Scholar
  100. (75a).
    E.J. Williams, Phys. Rev. 45, 729 (1934).ADSCrossRefGoogle Scholar
  101. (76).
    S.D. Drell and T.-M.Yan, Phys. Rev. Lett. 25, 316 (1970)ADSCrossRefGoogle Scholar
  102. (76a).
    Ann. Phys. 66, 578 (1971).ADSCrossRefGoogle Scholar
  103. (77).
    H.D. Politzer, Nucl. Phys. B129, 301 (1977).ADSCrossRefGoogle Scholar
  104. (78).
    R.K. Ellis, H. Georgi, M. Machacek, H.D. Politzer and G.G.Ross, Phys. Lett. 78B, 281 (1978)ADSGoogle Scholar
  105. (78a).
    Nucl. Phys. B152, 285 (1979).ADSCrossRefGoogle Scholar
  106. (79).
    G. Sterman and S. Libby, Phys. Rev. D18, 3252, 4737 (1978)ADSGoogle Scholar
  107. (80).
    C.T. Sachrajda, Phys. Lett. 73B, 185 (1978).ADSGoogle Scholar
  108. (81).
    C.T. Sachrajda, Phys. Lett. 76B, 100 (1978).ADSGoogle Scholar
  109. (82).
    V.N. Gribov and I.N. Lipatov, Sov. J. Nucl. Phys. 15, 675 (1972).Google Scholar
  110. (83).
    C.T. Sachrajda, Physica Scripta 19, 85 (1979)ADSCrossRefGoogle Scholar
  111. (84).
    R.P. Feynman, see rel. 10.Google Scholar
  112. (85).
    J. Kubar-André and F.E. Paige, Phys. Rev. D19, 221 (1978).ADSGoogle Scholar
  113. (86).
    G. Altarelli, R.K. Ellis and G. Martinelli, Nucl. Phys. B143, 521 (1978) (Erratum B146, 544 (1978)), and Nucl. Phys. B157, 461 (1979).ADSCrossRefGoogle Scholar
  114. (87).
    J. Abad and B. Humpert, Phys. Lett. 78B, 627 (1978)ADSGoogle Scholar
  115. (87a).
    80B, 433 (1979).Google Scholar
  116. (88).
    K. Harada, T. Kaneko and N. Sakai, Nucl. Phys. B155, 169 (1979) and Erratum to be published.ADSCrossRefGoogle Scholar
  117. (89).
    B. Humpert and W.L. van Neerven, Phys. Lett. 84B, 327 (1979) and 85B, 293 (1979)ADSGoogle Scholar
  118. (89a).
    CERN preprint TH 2738 (1979) and Erratum.Google Scholar
  119. (90).
    C.T. Sachrajda and S. Yankielowicz, in preparation.Google Scholar
  120. (91).
    N. Nakanishi, Graph theory and Feynman integrals (Gordon and Breach, NY, 1971).MATHGoogle Scholar
  121. (92).
    I.G. Halliday, J. Huskins and C.T. Sachrajda, Nucl. Phys. B83, 189 (1974).ADSCrossRefGoogle Scholar
  122. (93).
    C.E. DeTar, S.D. Ellis and P.V. Landshoff, Nucl. Phys. B87, 176 (1975).ADSCrossRefGoogle Scholar
  123. (94).
    A.H. Mueller, Phys. Rev. D2, 2963 (1970).ADSGoogle Scholar
  124. (95).
    S.J. Brodsky and G.P. Lepage, SLAC preprint SLAC-PUB-229M1979)-Google Scholar
  125. (96).
    S.J. Brodsky and G.R. Farrar, Phys. Rev. Lett. 31 ,1153 (1973)ADSCrossRefGoogle Scholar
  126. (96a).
    Phys. Rev. D11, 1309 (1975).ADSGoogle Scholar
  127. (97).
    V.A. Matveev, R.M. Muradyan and A.V. Tavkhelidze, Lett. Nuovo Cimento 7, 719 (1973).CrossRefGoogle Scholar
  128. (98).
    P.V. Landshoff, Phys. Rev. D10, 1024 (1974).ADSGoogle Scholar
  129. (99).
    A. Donnachie and P.V. Landsholf, Z. Phys. C2, 55 (1979).ADSGoogle Scholar
  130. (100).
    S.J. Brodsky and G.P. Lepage, Phys. Lett. 87B, 359 (1979).ADSGoogle Scholar
  131. (101).
    G. Farrar and D. Jackson, Phys. Rev. Lett. 43, 246 (1979).ADSCrossRefGoogle Scholar
  132. (102).
    A.V. Efremov and A.V. Radyushkin, Dubna preprints JINR-E2–11535 (1978) and JINR-E2–11983 (1979).Google Scholar
  133. (103).
    G. Parisi, Phys. Lett. 84B 225 (1979).ADSGoogle Scholar
  134. (104).
    S.J. Brodsky, Y. Frishman, G.P. Lepage and C.T. Sachrajda, CERN preprint TH 2731 (1979).Google Scholar
  135. (105).
    K. Kawarabayashi and M. Suzuki, Phys. Rev. Lett. 16, 255 (1966)MathSciNetADSCrossRefGoogle Scholar
  136. (105a).
    Fayyazuddin and Riazuddin, Phys. Rev. 147, 1071 (1966).MathSciNetADSCrossRefGoogle Scholar
  137. (106).
    S.J. Brodsky and G.P. Lepage, Phys. Rev. Lett. 43, 545 (1979).ADSCrossRefGoogle Scholar
  138. (107).
    V. Sudakov, Sov. Phys. JETP 3., 65 (1956).MathSciNetMATHGoogle Scholar
  139. (108).
    C.P. Korthals-Altes and E. de Rafael, Nucl. Phys. B106, 237 (1976).ADSGoogle Scholar
  140. (109).
    A.H. Mueller, Columbia University preprint CU-TP-158 (1979).Google Scholar
  141. (110).
    J.J. Carazzone, E.R. Poggio and H.R. Quinn, Phys. Rev. D11, 2286 (1975) and Phys. Rev. D12, 3368 (e) (1975).ADSGoogle Scholar
  142. (111).
    J. Cornwall and G. Tiktopoulos, Phys. Rev. D13, 3370 (1976) and Phys. Rev. D15, 2937 (1977).ADSGoogle Scholar
  143. (112).
    G. Hanson et al., Phys. Rev. Lett. 35, 1609 (1975).ADSCrossRefGoogle Scholar
  144. (113).
    TASSO Collaboration: R. Brandelik et al., Phys. Lett. 86B, 243 (1979)ADSGoogle Scholar
  145. (113a).
    MARK J. Collaboration: D.P. Barber et al., Phys. Rev. Lett. 43, 830 (1979)ADSCrossRefGoogle Scholar
  146. (113b).
    PLUTO Collaboration: Ch. Berger et al., Phys. Lett. 86B, 418 (1979).ADSGoogle Scholar
  147. (114).
    G. Sterman and S. Weinberg, Phys. Rev. Lett. 39, 1436 (1977).ADSCrossRefGoogle Scholar
  148. (115).
    P. Binétruy and G. Girardi, Phys. Lett. 83B, 339 (1979)Google Scholar
  149. (115a).
    P.M. Stevenson, Phys. Rev. Lett. 41, 787 (1978)ADSCrossRefGoogle Scholar
  150. (115b).
    Nucl. Phys. B156, 43 (1979)ADSCrossRefGoogle Scholar
  151. (115c).
    B.G. Weeks, Phys. Lett. 81B, 377 (1979).ADSGoogle Scholar
  152. (116).
    M.B. Einhorn and B.G. Weeks, Nucl. Phys. B146, 445 (1978).ADSCrossRefGoogle Scholar
  153. (116a).
    M.B. Einhorn and B.G. Weeks, Nucl. Phys. B146, 445 (1978). K. Shizuya and S.-H.H.Tye, Phys.Rev.Lett. 41, 787 (1978).ADSCrossRefGoogle Scholar
  154. (117).
    A. De Rújula, J. Ellis, E.G. Floratos and M.K. Gaillard, Nucl. Phys. B138, 387 (1978).ADSCrossRefGoogle Scholar
  155. (118).
    H. Meyer, Invited talk at the Int. Symposium on Lepton and Photon Interactions at High Energies, FNAL, Batavia, 1979.Google Scholar
  156. (119).
    W. Furmánski, Nucl. Phys. B158, 429 (1979).ADSCrossRefGoogle Scholar
  157. (120).
    E. Farhi, Phys. Rev.Lett. 39, 1587 (1977).ADSCrossRefGoogle Scholar
  158. (121).
    H. Georgi and M. Machacek, Phys. Rev. Lett. 39,1237 (1977).ADSCrossRefGoogle Scholar
  159. (122).
    MARK J Collaboration, see ref. 113.Google Scholar
  160. (123).
    J. DeGrand, Y.J.Ng and S.-H.H.Tye, Phys. Rev.Dl6, 3251 (1977).ADSGoogle Scholar
  161. (124).
    J. Ellis and I. Karliner, Nucl. Phys. B148, 141 (1979).ADSGoogle Scholar
  162. (125).
    R. Barbieri, E. d’Emilio, G. Curci and E. Remiddi, Nucl. Phys. B154, 535 (1979).ADSCrossRefGoogle Scholar
  163. (126).
    S.J. Brodsky, D.G. Coyne, T.A. DeGrand and R.R. Horgan, Phys. Lett. 73B, 203 (1998).ADSGoogle Scholar
  164. (127).
    R. Barbieri, R. Gatto and E. Remiddi, Phys. Lett. 61B, 465 (1976).ADSGoogle Scholar
  165. (128).
    M. Krammer and H. Krasemann, Phys. Lett. 73B, 58 (1978).ADSGoogle Scholar
  166. (129).
    K. Koller and H. Krasemann, DESY preprint 79/52 (1979).Google Scholar
  167. (130).
    K. Koller, H. Krasemann and T.F. Walsh, Z. Phys. C1, 71 (1979).ADSGoogle Scholar
  168. (131).
    E.G. Floratos, Nuovo Cimento 143, 241 (1978).ADSGoogle Scholar
  169. (132).
    K.H. Craig and C.H. Llewellyn Smith, Phys. Lett. 72B, 349 (1979).Google Scholar
  170. (133).
    P. Binétruy and G. Girardi, Nucl. Phys. B155, 150 (1979).ADSCrossRefGoogle Scholar
  171. (134).
    K.W.J. Barnham et al., Phys. Lett. 85B, 300 (1979).ADSGoogle Scholar
  172. (135).
    C. Kourkoumelis et al., Phys. Lett. 85B, 147 (1979).ADSGoogle Scholar
  173. (136).
    J.F. Owens, Phys. Lett. 76B, 85 (1978)ADSGoogle Scholar
  174. (136a).
    T. Uematsu, Phys. Lett. 79B, 97 (1978).ADSGoogle Scholar
  175. (137).
    K. Koller, T.F. Walsh and P.M. Zerwas, Phys. Lett. 82B, 263 (1969).ADSGoogle Scholar
  176. (138).
    J. Blietschau et al., Phys. Lett. 87B, 281 (1979).ADSGoogle Scholar
  177. (139).
    D.H. Perkins, Oxford University preprint 79/2 (1979).Google Scholar
  178. (140).
    R.K. Ellis and R. Petronzio, Phys. Lett. 80B, 249 (1979).ADSGoogle Scholar
  179. (141).
    E. Reya, Phys. Rev. Lett. 1+3, 8 (1979)CrossRefGoogle Scholar
  180. (141a).
    A. De Rújula, B. Lautrup and R. Petronzio, Nucl. Phys. B146, 50 (1978).ADSCrossRefGoogle Scholar
  181. (142).
    W. Furmański, R. Petronzio and S. Pokorski, Nucl. Phys. B155, 253 (1979)ADSCrossRefGoogle Scholar
  182. (142a).
    A. Bassetto, M. Cialaloni and G. Marchesini, Phys. Lett. 83B, 207 (1979)ADSGoogle Scholar
  183. (142b).
    K. Konishi, Rutherford Laboratory preprint RL-79–035 T. 241 (1979).Google Scholar

Copyright information

© Springer Science+Business Media New York 1980

Authors and Affiliations

  • J. Ellis
    • 1
  • C. T. Sachrajda
    • 2
    • 3
  1. 1.CERNGeneva 23Switzerland
  2. 2.CERNGenevaSwitzerland
  3. 3.Dept. of PhysicsUniv. of SouthamptonEngland

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