Математические методы квантовой физики - Глимм Дж.
Скачать (прямая ссылка):
Federbush, P. (1971b). Unitary renormalization of [04]2 + 1, Comm. Math.
Phys. 21, 261-268.
Federbush, P. (1973). Positivity for some generalized Yukawa models in
one space dimension, J. Math. Phys. 14, 1532-1542.
Federbush, P. (1975). A new approach to the stability of matter problem.
I, II, J. Math. Phys. 16, 347-351; 16, 706-709.
Federbush, P. (1976). The semi-Euclidean approach in statistical
mechanics. I, II, J. Math. Phys. 17, 200-203; 204-207.
Federbush, P. (1981). A zero mass cluster expansion, Comm. Math. Phys.,
to appear.
Federbush, P. and Gidas, B. (1971). Renormalization of the one-space
dimensional Yukawa2 model by unitary transformation, Ann. Phys. 68, 98-
101.
Литература
Feldman, J. (1973). A relativistic Feynman-Kac formula, Nuclear Physics В
52,
608-614.
Feldman, J. (1974a). On the absence of bound states in the Хф* quantum
field model without symmetry breaking, Canaii. Jour. Phys. 52, 1583-1587.
Feldman, J. (1974b). The Хф* field theory in a finite volume, Comm. Math.
Phys. 37, 93-120.
Feldman, J. and Osterwalder, K. (1976). The Wightman axioms and the mass
gap for weakly coupled (</>4)j quantum field theories, Ann. of Phys. 97,
80-135.
Feldman, J. and Raczka, R. (1977). The relativistic field equations of
the Хф* quantum field theory, Ann. Phys. 10, 212-229.
Fetter, A. and Walecka, J. (1971). Quantum Theory of Many-Particle
Systems, New York : McGraw-Hill.
M Feynman, R. P. and Hibbs, A: P. (1965). Quantum Mechanics and Path
Integrals,. New York: McGraw-Hill.
Fisher, M. (1969). Rigorous inequalities for critical point correlation
exponents, Phys. Rev. 180, 594-600.
Fortuin, C., Kastelyn, P. and Ginibre, J. (1971). Correlation
inequalities on some partially ordered sets, Comm. Math. Phys..22, 89-
103.
Fredenhagen, K. (1981). On the existence of antiparticles. Comm. Math.
Phys. 79, 141-15.1.
Friedman, H. (1962). Ionic Solution Theory Based on Cluster Expansion
Methods, New York: Interscience.
Friedrichs, K. (1965). Perturbation.of Spectra in Hilbert Space,
Providence: American Mathematical Society.
Frohlich, J. (1973). On the infrared problem in a model of scalar
electrons and massless, scalar bosons, Ann. rinst. Henri Poincare A19,
100-103.
Frohlich, J. (1974a). Verification of axioms for Euclidean and
relativistic fields and Haag's theorem in a class of Р(ф)г models, Ann.
TInst. H. Poincare 21,
271-317.
Frbhlich, J. (1974b). Schwinger functions and their generating
functionals, I. Helv. Phys. Acta 47, 265-306.
FrShlich, J. (1975a). The quantized "Sine-Gordon" equation with a non-
vanishing, mass term in two s.pace-time dimensions, Phys. Rev. Lett. 34,
833-836.
Fr6h)ich, J. (1975b). The reconstruction oi quantum fields from Euclidean
Green's functions at arbitrary temperatures in models of a self-
interacting Bose field ii> two space-time dimension,.Helv. Phys. Acta 48,
355-363.
75Fr6hlich, J. (1976a). Classical and quantum statistical mechanics in
one and two dimensions: Two component Yukawa and Coulomb systems, Comm.
Math. Phys. .47, 233-268.
Frohlich, J. (1976b). New super selection sectors (soliton-states) in two
dimensional Bose quantum field models, Comm. Math. Phys. 47, 269-310.
Fr6hlich, J. (1976c). Phase transitions, Goldstone Boson, and topological
superselection rules, Acta. Phys. Austriaca, Suppl, XV, 133-269.
410 Литература
Frohlich, J. (1976d). The pure phases, the irreducible quantum fields,
and dynamical symmetry breaking in Symanzik-Nelson quantum field
theories, Ann. Phys. 97, 1-54,
Frohlich, J. (1977a). Application of commutator theorems to the
integration of representations of Lie algebras and commutation relations,
Comm. Math. Phys.
54, 135-150.
Frohlich, J. (1977b). Schwinger functions and their generating
functionals. II. Markovian and generalized path space measures on L1,
Adv. Math. 23, 119-180.
Frohlich, J. (1979). The charged sectors of quantum electrodynamics in a
framework of local observables. Comm. Math. Phys. 66, 223-265.
Frohlich, J. (1980). Some results and comments on quantized gauge fields
In: Recent Developments in Gauge Theories (Cargese, 1979). G. 'tHooft et
ai eds., New York: Plenum Press.
Frohlich, J, (1981). Some comments on the crossover between strong and
weak coupling in SU(2) pure Yang-Mills theory. In: Proceedings of Les
Houches workshop " Common Trends in Particle and Condensed Matter
Physics" Feb. 18-29, 1980. To appear.
Frohlich, J., Israel, R., Lieb, E. and Simon, B. (1978). Phase
transitions and reflection positivity, I. General theory and long-range
lattice models, Comm. Math. Phys. 62, 1-34.
Frohlich, J., Israel, R. B., Lieb, E. H. and Simon, B. (1980), Phase
transitions and reflection positivity, II. Lattice systems with short-
range and Coulomb interactions, J. Stat. Phys. 22, 297-347.
Frohlich, J. and Lieb, E. (1978). Phase transitions in anisotropic spin
systems. Comm. Math. Phys. 60, 233-267.
Frohlich, J., Morchio, G. and Strocchi, F. (1979a). Charged sectors and
