Quantum Fields in Curved Space

“…I would like to study this relation, for instance, by taking a large N, k limit with keeping a ratio N/k finite. 26 Other interesting theories are the plane wave matrix model [41] and (2+1) dimensional super Yang-Mills theory on R × S 2 , which are obtained by truncating the N = 4 YangMills theory on R × S 3 like our orbifold theory. These models share the same symmetry SU(2|4) at zero temperature, and the gravity dual of these models was studied in [6].…”

“…In order to compute Casimir energy, we have to sum over infinitely many states, and this may lead to a divergent result. Thus we have to choose a regularization, but it is a subtle problem for quantum field theory on a curve background [26]. Fortunately, we will find that the Casimir energies in our case are finite, thus we do not need to worry about this difficult issue.…”

“…In our case the divergent terms may be absorbed by the counter terms aµ 4 √ g and bµ 2 √ gR. See [26] for more detailed discussions.…”

“…This 15 For k = 2 the cases with the periodic and anti-periodic boundary conditions lead to the identical result. 16 The Casimir energy in this case was already computed in [10,11] by following the general method of [26].…”

Phase transitions of largeNorbifold gauge theories

“…I would like to study this relation, for instance, by taking a large N, k limit with keeping a ratio N/k finite. 26 Other interesting theories are the plane wave matrix model [41] and (2+1) dimensional super Yang-Mills theory on R × S 2 , which are obtained by truncating the N = 4 YangMills theory on R × S 3 like our orbifold theory. These models share the same symmetry SU(2|4) at zero temperature, and the gravity dual of these models was studied in [6].…”

“…In order to compute Casimir energy, we have to sum over infinitely many states, and this may lead to a divergent result. Thus we have to choose a regularization, but it is a subtle problem for quantum field theory on a curve background [26]. Fortunately, we will find that the Casimir energies in our case are finite, thus we do not need to worry about this difficult issue.…”

“…In our case the divergent terms may be absorbed by the counter terms aµ 4 √ g and bµ 2 √ gR. See [26] for more detailed discussions.…”

“…This 15 For k = 2 the cases with the periodic and anti-periodic boundary conditions lead to the identical result. 16 The Casimir energy in this case was already computed in [10,11] by following the general method of [26].…”

Phase transitions of largeNorbifold gauge theories

“…It has been applied in the study of black holes and large scales structures in the universe as well as in the study of the Casimir effect, e.g. However, transferring our existing formulations of quantum theory to curved spaces is not straightforward and any approach will be hampered with a number of issues (1). Nanostructures provide an experimental arena which potentially can provide direct evidence for the interplay between geometry and quantum theory.…”

Quantum Mechanics on Surfaces

Semiclassical Trajectory-Coherent Approximation in Quantum Mechanics I. High-Order Corrections to Multidimensional Time-Dependent Equations of Schrödinger Type