Gauge fields and space-time geometry

L. D. Faddeev and A. A. Slavnov,Gauge Fields: Introduction to Quantum Theory [in Russian], Nauka, Moscow (1978); English transl., Benjamin, London (1980); M. Daniel and C. M. Viallet,Rev. Mod. Phys.,52, 175 (1980).

F. W. Hehl, P. von der Heyde, G. D. Kerlick, and J. M. Nester,Rev. Mod. Phys.,48, 393 (1976); V. N. Ponomarev, A. O. Baravinskii, and Yu. N. Obukhov,Geometrodynamic Methods and the Gauge Approach to Gravitational Interaction Theory [in Russian], Énergoatomizdat, Moscow (1985); E. W. Mielke,Geometrodynamics of Gauge Fields: On the Geometry of Yang-Mills and Gravitational Gauge Theories, Akademie, Berlin (1987); F. W. Hehl, J. D. McCrea, E. W. Mielke, and Y. Ne'eman,Phys. Rep.,258, 1 (1995).

T. D. Lee,Particle Physics and Introduction to Field Theory: Contemporary Concepts in Physics (Revised and updated ed.), Vol. 1, Harwood Academic Chur (1990).

A. Ashtekar,Lectures on Nonperturbative Canonical Gravity (Advanced Series in Astrophysics and Cosmology, Vol. 6), World Scientific Singapore (1991).

B. P. Dolan,Phys. Lett. B,233, 89 (1990); R. P. Wallner,Phys. Rev. D,42, 441 (1990); E. W. Mielke,Ann. Phys.,219, 78 (1992).

J. M. Nester, R.-S. Tung, and Y. Z. Zhang,Class. Q. Grav.,11, 757 (1994).

E. V. Shuryak,The QCD Vacuum, Hadrons and the Superdense Matter (World Scientific Lecture Notes in Physics, Vol. 8), World Scientific, Singapore (1988).

K. Johnson, “The Yang-Mills ground state,” in:QCD: 20 Years Later. Aachen, 1992 (P. M. Zerwas and H. A. Kastrup, eds.), World Scientific, Singapore (1993), p. 795; D. Z. Freedman, P. E. Haagensen, K. Johnson, and J. I. Latorre, “The hidden spatial geometry of non-Abelian gauge theories,” Preprint CERN-TH. 7010/93, CERN, Geneva (1993); M. Bauer, D. Z. Freedman, and P. E. Haagensen,Nucl. Phys. B,428, 147 (1994); D. Z. Freedman, “Spatial geometry of Hamiltonian gauge theories,” Preprint CERN-TH. 7391/94, CERN, Geneva (1994); hep-th/948053 (1994); M. Bauer and D. Z. Freedman,Nucl. Phys. B,450, 209 (1995).

F. A. Lunev,Phys. Atom. Nucl.,56, 1591 (1993);Phys. Lett. B,295, 99 (1992);Theor. Math. Phys.,94, 48 (1993);Phys. Lett. B,311, 273 (1993);314, 21 (1993);Mod. Phys. Lett. A,9, 2281 (1994);J. Math. Phys.,37, 5351 (1996).

Y. Ne'eman and Dj. Šijački, “Chromogravity: QCD-induced diffeomorphisms,” Preprint Tel-Aviv University, Tel-Aviv Univ. Press, Tel-Aviv (1993); Dj. Šijački, “QCD originated dynamical symmetry for hadrons,” hepth/9311033 (1993); V. Radovanovic and Dj. Šijački,Class. Q. Grav.,12, 1791 (1995).

E. M. Mielke, Yu. N. Obukhov, and F. W. Hehl,Phys. Lett. A,192, 153 (1994).

P. E. Haagensen and K. Johnson,Nucl. Phys. B,439, 597 (1995).

Sh. Kobayashi and K. Nomizu,Foundations of Differential Geometry, Interscience, New York (1963).

T. T. Wu and C. N. Yang,Phys. Rev. D.,12, 3843 (1975).

S. Deser and W. Drechsler,Phys. Lett. B,86, 189 (1979).

J. Goldstone and R. R. Khuri,Phys. Lett. B,329, 263 (1994).

D. Z. Freedman and R. R. Khuri,Phys. Lett. B,329, 263 (1994).

E. Witten,Phys. Rev. D,19, 718 (1979).

D. Singleton,Phys. Rev. D,51, 5911 (1995).

Yu. N. Obukhov, “Analogue of black string in the Yang-Mills gauge theory,” Preprint Univ. Cologne, Köln, Cologne Univ. Press (1996); hep-th/9608011 (1996); D. Singleton,J. Math. Phys.,37, 4574 (1996);Nuovo Cimento A,109, 169 (1996).