12,406 research outputs found
The Euler-Heisenberg Lagrangian beyond one loop
We review what is presently known about higher loop corrections to the
Euler-Heisenberg Lagrangian and its Scalar QED analogue. The use of those
corrections as a tool for the study of the properties of the QED perturbation
series is outlined. As a further step in a long-term effort to prove or
disprove the convergence of the N photon amplitudes in the quenched
approximation, we present a parameter integral representation of the three-loop
Euler-Heisenberg Lagrangian in 1+1 dimensional QED, obtained in the worldline
formalism.Comment: 11 pages, 2 figures, talk given by Christian Schubert at QFEXT11,
Benasque, Spain, Sept. 18-24, 2011, to appear in the conference proceeding
A Gauge-Gravity Relation in the One-loop Effective Action
We identify an unusual new gauge-gravity relation: the one-loop effective
action for a massive spinor in 2n dimensional AdS space is expressed in terms
of precisely the same function [a certain multiple gamma function] as the
one-loop effective action for a massive charged scalar in 4n dimensions in a
maximally symmetric background electromagnetic field [one for which the
eigenvalues of F_{\mu\nu} are maximally degenerate, corresponding in 4
dimensions to a self-dual field, equivalently to a field of definite helicity],
subject to the identification F^2 \Lambda, where \Lambda is the
gravitational curvature. Since these effective actions generate the low energy
limit of all one-loop multi-leg graviton or gauge amplitudes, this implies a
nontrivial gauge-gravity relation at the non-perturbative level and at the
amplitude level.Comment: 6 page
On the Yang-Mills two-loop effective action with wordline methods
We derive the two-loop effective action for covariantly constant field
strength of pure Yang-Mills theory in the presence of an infrared scale. The
computation is done in the framework of the worldline formalism, based on a
generalization procedure of constructing multiloop effective actions in terms
of the bosonic worldline path integral. The two-loop beta-function is correctly
reproduced. This is the first derivation in the worldline formulation, and
serves as a nontrivial check on the consistency of the multiloop generalization
procedure in the worldline formalism.Comment: 8 pages, 4 figure
Braided Oscillators
The braided Hopf algebra structure of the generalized oscillator is
investigated. Using the solutions two types of braided Fibonacci oscillators
are introduced. This leads to two types of braided Biedenharn-Macfarlane
oscillators.Comment: 12 pages, latex, some references added, published versio
Exact computation of one-loop correction to energy of spinning folded string in AdS_5 x S^5
We consider the 1-loop correction to the energy of folded spinning string
solution in the AdS_3 part of AdS_5 x S^5. The classical string solution is
expressed in terms of elliptic functions so an explicit computation of the
corresponding fluctuation determinants for generic values of the spin appears
to be a non-trivial problem. We show how it can be solved exactly by using the
static gauge expression for the string partition function (which we demonstrate
to be equivalent to the conformal gauge one) and observing that all the
corresponding second order fluctuation operators can be put into the standard
(single-gap) Lam\'e form. We systematically derive the small spin and large
spin expansions of the resulting expression for the string energy and comment
on some of their applications.Comment: 52 pp, 12 figures; v3: footnote 9 adde
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