2,274 research outputs found
Remark on lattice BRST invariance
A recently claimed resolution to the lattice Gribov problem in the context of
chiral lattice gauge theories is examined. Unfortunately, I find that the old
problem remains.Comment: 4 pages, plain TeX, presentation improved (see acknowledgments
Lambda-parameter of lattice QCD with the overlap-Dirac operator
We compute the ratio between the scale
parameter , associated with a lattice formulation of QCD using the
overlap-Dirac operator, and of the
renormalization scheme. To this end, the necessary one-loop relation between
the lattice coupling and the coupling renormalized in the scheme is calculated, using the lattice background field technique.Comment: 11 pages, 2 figure
Proposal for the numerical solution of planar QCD
Using quenched reduction, we propose a method for the numerical calculation
of meson correlation functions in the planar limit of QCD. General features of
the approach are outlined, and an example is given in the context of
two-dimensional QCD.Comment: 31 pages, 10 figures, uses axodraw.sty, To appear in Physical Review
Probing the topological structure of the QCD vacuum with overlap fermions
Overlap fermions implement exact chiral symmetry on the lattice and are thus
an appropriate tool for investigating the chiral and topological structure of
the QCD vacuum. We study various chiral and topological aspects on
Luescher-Weisz-type quenched gauge field configurations using overlap fermions
as a probe. Particular emphasis is placed upon the analysis of the spectral
density and the localisation properties of the eigenmodes as well as on the
local structure of topological charge fluctuations.Comment: 8 pages, 6 figures, talk given at the Workshop on Computational
Hadron Physics, Nicosia, Cyprus, September 14-17, 2005; v2: Fig.6 corrected,
statistics in Fig. 4-6 increased, minor text change
Lattice QCD with the Overlap-Dirac Operator: Its Parameter, and One-Loop Renormalization of Fermionic Currents
We compute the ratio between the scale associated with a lattice
formulation of QCD using the overlap-Dirac operator, and . To
this end, the one-loop relation between the lattice coupling and the
coupling renormalized in the MS-bar scheme is calculated, using the lattice
background field technique.
We also compute the one-loop renormalization of the two-quark
operators , where denotes a generic Dirac
matrix. Furthermore, we study the renormalization of quark bilinears which are
more extended and have better chiral properties.
Finally, we present improved estimates of , coming from cactus
resummation and from mean field perturbation theory.Comment: 3 pages, LATeX with 2 PS figure files. Talk presented at Confinement
IV, Vienna, July 2000. Longer write-ups in: hep-lat/9909158 (NPB 571 (2000)
257), hep-lat/0002010 (NPB 580 (2000) 394). One further reference added, no
other change
Free energy and theta dependence of SU(N) gauge theories
We study the dependence of the free energy on the CP violating angle theta,
in four-dimensional SU(N) gauge theories with N >= 3, and in the large-N limit.
Using the Wilson lattice formulation for numerical simulations, we compute
the first few terms of the expansion of the ground-state energy F(theta) around
theta = 0, F(theta) - F(0) = A_2 theta^2 (1 + b_2 theta^2 + ...). Our results
support Witten's conjecture: F(theta) - F(0) = A theta^2 + O(1/N) for theta <
pi.
We verify that the topological susceptibility has a nonzero large-N limit
chi_infinity = 2A with corrections of O(1/N^2), in substantial agreement with
the Witten-Veneziano formula which relates chi_infinity to the eta' mass.
Furthermore, higher order terms in theta are suppressed; in particular, the
O(theta^4) term b_2 (related to the eta' - eta' elastic scattering amplitude)
turns out to be quite small: b_2 = -0.023(7) for N=3, and its absolute value
decreases with increasing N, consistently with the expectation b_2 = O(1/N^2).Comment: 3 pages, talk presented at the conference Lattice2002(topology). v2:
One reference has been updated, no further change
Low-Lying Dirac Eigenmodes, Topological Charge Fluctuations and the Instanton Liquid Model
The local structure of low-lying eigenmodes of the overlap Dirac operator is
studied. It is found that these modes cannot be described as linear
combinations of 't Hooft "would-be" zeromodes associated with instanton
excitations that underly the Instanton Liquid Model. This implies that the
instanton liquid scenario for spontaneous chiral symmetry breaking in QCD is
not accurate. More generally, our data suggests that the vacuum fluctuations of
topological charge are not effectively dominated by localized lumps of unit
charge with which the topological "would-be" zeromodes could be associated.Comment: Presented by I. Horvath at the NATO Advanced Research Workshop
"Confinement, Topology, and other Non-Perturbative Aspects of QCD", January
21-27, 2002, Stara Lesna, Slovakia. 12 pages, 6 figures, uses crckapb.st
Effective Lagrangian for strongly coupled domain wall fermions
We derive the effective Lagrangian for mesons in lattice gauge theory with
domain-wall fermions in the strong-coupling and large-N_c limits. We use the
formalism of supergroups to deal with the Pauli-Villars fields, needed to
regulate the contributions of the heavy fermions. We calculate the spectrum of
pseudo-Goldstone bosons and show that domain wall fermions are doubled and
massive in this regime. Since we take the extent and lattice spacing of the
fifth dimension to infinity and zero respectively, our conclusions apply also
to overlap fermions.Comment: 26 pp. RevTeX and 3 figures; corrected error in symmetry breaking
scheme and added comments to discussio
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