[1] J. Maharana, Ann. Inst. H. Poincaré, t. 39, 1983, p. 193. | Numdam | MR 722685 | Zbl 0518.58021

[2] K. Pohlmeyer, Comm. Math. Phys., t. 46, 1976, p. 206; A.A. Belavin and A.M. Polyakov, JETP Lett., t. 22, 1975, p. 245; H. Eichenherr, Nucl. Phys., t. B 146, 1978, p. 215 ; t. B 155, 1979, p. 544. | MR 408535

[3] M. Luscher and K. Pohlmeyer, Nucl. Phys., t. B 137, 1978, p. 46; E. BRÉZIN, C. ITZYKSON, J. ZINN-JUSTIN and J. B. ZUBER, Phys. Lett., t. 82 B, 1979, p. 442 ; H.J. De Vega, Phys. Lett., t. 87 B, 1979, p. 233 ; A.T. Ogielski, Phys. Rev., t. D 21, 1980, p. 406; | MR 496052

E. Corrigan and C.K. Zachos, Phys. Lett., t. 88 B, 1979, p. 273 ; T.L. Curtright and C.K. Zachos, Phys. Rev., t. D 21, 1980, p. 273 ; J.F. Schonfeld, Nucl. Phys., t. B 169, 1980, p. 49 ; Z. Popovicz and L.-L. Chau Wang, Phys. Lett., t. 98 B, 1981, p. 253.

[4] A.C. Davis, A.J. Macfarlane and J.W. Van Holten, Nucl. Phys., t. B 218, 1983, p. 191 and references therein; J.W. Van Holten, Wuppertal Preprint, WUB83-23, 1983.

[5] W. Buchmüller, R.D. Peccei and T. Yanagita, Nucl. Phys., t. B 227, 1983, p. 503 ; C.L. Ong, Phys. Rev., t. D 27, 1983, p. 911.

[6] E. Witten, Phys. Rev., t. D 16, 1977, p. 2991 ; P. Di Vecchia and S. Ferrara, Nucl. Phys., t. B 130, 1979, p. 93 ; B. Zumino, Phys. Lett., t. 87 B, 1979, p. 203 ; A. D'Adda, P. Di Vecchia and M. Lüscher, Nucl. Phys., t. B 152, 1979, p. 128; S. Aoyama, Nuovo Cimento, t. 57, 1980, p. 176; G. Duerksen, Phys. Rev., t. D 24, 1981, p. 926.

[7] S. Rouhani, Nucl. Phys., t. B 169, 1980, p. 430; A.C. Davis, A.J. Macfarlane and J.M. Van Holten, Nucl. Phys., t. B 232, 1984, p. 4731 ; J.W. Van Holten, Nucl. Phys., t. B 242, 1984, p. 307. | MR 733214 | MR 581448

[8] S. Ferrara, Lett. Nuovo Cimento, t. 13, 1975, p. 629. | MR 446220

[9] P.A.M. Dirac, Can. J. Math., t. 2, 1950, p. 129; P.A.M. Dirac, Lectures on Quantum Mechanics, Belfer Graduate School of A. J. Hanson, T. Regge and C. Teitelboim, Constraint Hamiltonian System, Accademia Nazionale dei Lincei, Rome, 1976; E.C.G. Sudarshan and N. Mukunda, Classical Dynamics: A Modern Perspective, Wiley-Interscience, New York, 1974 ; L.D. Faddeev, Theor. Math. Phys., t. 1, 1970, p. 1. | MR 43724

[10] L.D. Faddeev and A. Slavnov, Gauge Fields: Introduction to Quantum Theory, Benjamin-Cummings, 1980, London. | MR 618649 | Zbl 0486.53052

[12] See: T.L. Curtright and C.K. Zachos, Phys. Rev., t. D 21, 1980, p. 273. | MR 559655

[12] We follow closely our earlier work: J. Maharana, Lett. Math. Phys., t. 8, 1984, p. 289 ; See also: J. Maharana, in Proc. of 1985, Marcel Grossmann Meeting, ed. R. Ruffini, North Holland Pub.

[13] H.J. De Vega, Lectures at Winter School on Common Trends in Field Theory and Condensed Matter Physics, Panchgani, 1985, and references therein.

[14] D. Altschuler and H.P. Nilles, Phys. Lett., t. 154 B, 1985, p. 135 ; D. Friedan, Z. Qiu and S. Shenker, Phys. Lett., t. 151 B, 1985, p. 37 ; S. Jain, R. Shankar and S. Wadia, Phys. Rev., t. D 32, 1985, p. 2713 ; D. Nemeschansky and S. Yankielowicz, Phys. Rev. Lett., t. 54, 1985, p. 62; A. Sen, Talk presented at the Workshop on Unified String Theories, Santa Barbara, SLAC-PUB-3794, 1985 and references therein.

[15] J. Barcelos-Neto, A. Das and J. Maharana, Rochester Preprint UR924, 1985.

[16] R. Casalbuoni, Nuovo Cimento, t. 33 A, 1976, p. 115. For field theoretic generalizations, see: Canonical Structure and Quantization of Grassmann variables, J. MAHARANA (to be published).