116 citations to https://www.mathnet.ru/rus/ufn8791
-
G E Volovik, “Linear momentum in ferromagnets”, J. Phys. C: Solid State Phys., 20:7 (1987), L83
-
Jacek Jezierski, “Positivity of total energy in general relativity”, Phys. Rev. D, 36:4 (1987), 1041
-
Robert Bartnik, “The mass of an asymptotically flat manifold”, Comm Pure Appl Math, 39:5 (1986), 661
-
S Hwang, “Breaking of Lorentz invariance in vielbein gravity”, Class. Quantum Grav., 3:2 (1986), 193
-
В. О. Соловьев, “Алгебра генераторов асимптотической группы Пуанкаре в общей
теории относительности”, ТМФ, 65:3 (1985), 400–414 ; V. O. Soloviev, “Generator algebra of the asymptotic Poincaré group in the general theory of relativity”, Theoret. and Math. Phys., 65:3 (1985), 1240–1249
-
K. Hayashi, T. Shirafuji, “Energy, Momentum and Angular Momentum in Poincare Gauge Theory”, Progress of Theoretical Physics, 73:1 (1985), 54
-
Marek Antonowicz, Wiktor Szczyrba, “Spinor matter fields in SL(2,C) gauge theories of gravity: Lagrangian and Hamiltonian approaches”, Phys. Rev. D, 31:12 (1985), 3104
-
Matti Pitk�nen, “Topological geometrodynamics. I. Basic theoretical framework”, Int J Theor Phys, 24:8 (1985), 775
-
S. Deser, “Supergauge independence of Witten's gravitational energy expression”, Phys. Rev. D, 30:6 (1984), 1392
-
В. И. Денисов, В. О. Соловьев, “Энергия, определяемая в ОТО на основе традиционного гамильтонова подхода, не имеет физического смысла”, ТМФ, 56:2 (1983), 301–314 ; V. I. Denisov, V. O. Soloviev, “The energy determined in general relativity on the basis of the traditional Hamiltonian approach does not have physical meaning”, Theoret. and Math. Phys., 56:2 (1983), 832–841