20,458 research outputs found
Generally covariant quantization and the Dirac field
Canonical Hamiltonian field theory in curved spacetime is formulated in a
manifestly covariant way. Second quantization is achieved invoking a
correspondence principle between the Poisson bracket of classical fields and
the commutator of the corresponding quantum operators. The Dirac theory is
investigated and it is shown that, in contrast to the case of bosonic fields,
in curved spacetime, the field momentum does not coincide with the generators
of spacetime translations. The reason is traced back to the presence of second
class constraints occurring in Dirac theory. Further, it is shown that the
modification of the Dirac Lagrangian by a surface term leads to a momentum
transfer between the Dirac field and the gravitational background field,
resulting in a theory that is free of constraints, but not manifestly
hermitian.Comment: final version, to appear in Annals Phy
Second order formalism in Poincare gauge theory
Changing the set of independent variables of Poincare gauge theory and
considering, in a manner similar to the second order formalism of general
relativity, the Riemannian part of the Lorentz connection as function of the
tetrad field, we construct theories that do not contain second or higher order
derivatives in the field variables, possess a full general relativity limit in
the absence of spinning matter fields, and allow for propagating torsion fields
in the general case. A concrete model is discussed and the field equations are
reduced by means of a Yasskin type ansatz to a conventional Einstein-Proca
system. Approximate solutions describing the exterior of a spin polarized
neutron star are prsented and the possibility of an experimental detection of
the torsion fields is briefly discussed.Comment: final version, to appear in IJMP
A Littlewood-Richardson rule for evaluation representations of quantum affine sl(n)
We give a combinatorial description of the composition factors of the
induction product of two evaluation modules of the affine Iwahori-Hecke algebra
of type GL(m). Using quantum affine Schur-Weyl duality, this yields a
combinatorial description of the composition factors of the tensor product of
two evaluation modules of the quantum affine algebra of type sl(n)
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