Add to ORKGWe study pure SU(3) gauge theory on a large lattice, using Schrodinger's equation. Our approximate solution uses a basis of roughly 1000 states. Gauge invariance is recovered when the color content of the ground state is extrapolated to zero. We are able to identify the gauge invariant excitations that remain when the extrapolation is performed. In the weak coupling limit, we obtain promising results when we compare the excitation energies (masses) to known results, which we derive. We discuss the application of our nonperturbative method to the regime where glueballs are present
In this work, we study various Monte Carlo methods for lattice gauge theories. The mass of the 0+ gl...
The lowest-lying glueball masses are computed in SU($N$) gauge theory on a spacetime lattice for con...
AbstractA Padé approximation approach, rooted in an infrared moment technique, is employed to provid...
We formulate SU(3) Hamiltonian lattice QCD in terms of the plaquette variables and determine the rel...
Using the Hamiltonian lattice gauge theory, we perform some variational calculations to obtain the g...
Masses of all the glueballs which are created by 6- or 7-hnk operators are calculated to order g- s ...
Abstract: We calculate the low-lying glueball spectrum of the SU(3) lattice gauge theory in 3 + 1 di...
For SU(2) gauge theory on the three-sphere we study the dynamics of the low-energy modes. By explici...
We discuss how to extract the spectroscopy of quantum chromodynamics (QCD) in the pure gauge sector ...
The spectrum of glueballs below 4 GeV in the SU(3) pure-gauge theory is investigated using Monte Car...
We give a complete classification of states that can be constructed from spacelike Wilson loop opera...
A `forward walking' Green's Function Monte Carlo algorithm is used to obtain expectation values for ...
We present a high-precision lattice calculation of the equation of state in the confining phase of S...
We present a study of the SU(3) glueball spectrum for all JPC values at lattice spacings down to a−1...
The SU(2) Hamiltonian lattice gauge theory is shown explicitly to be equivalent to a nonrelativistic...
In this work, we study various Monte Carlo methods for lattice gauge theories. The mass of the 0+ gl...
The lowest-lying glueball masses are computed in SU($N$) gauge theory on a spacetime lattice for con...
AbstractA Padé approximation approach, rooted in an infrared moment technique, is employed to provid...
We formulate SU(3) Hamiltonian lattice QCD in terms of the plaquette variables and determine the rel...
Using the Hamiltonian lattice gauge theory, we perform some variational calculations to obtain the g...
Masses of all the glueballs which are created by 6- or 7-hnk operators are calculated to order g- s ...
Abstract: We calculate the low-lying glueball spectrum of the SU(3) lattice gauge theory in 3 + 1 di...
For SU(2) gauge theory on the three-sphere we study the dynamics of the low-energy modes. By explici...
We discuss how to extract the spectroscopy of quantum chromodynamics (QCD) in the pure gauge sector ...
The spectrum of glueballs below 4 GeV in the SU(3) pure-gauge theory is investigated using Monte Car...
We give a complete classification of states that can be constructed from spacelike Wilson loop opera...
A `forward walking' Green's Function Monte Carlo algorithm is used to obtain expectation values for ...
We present a high-precision lattice calculation of the equation of state in the confining phase of S...
We present a study of the SU(3) glueball spectrum for all JPC values at lattice spacings down to a−1...
The SU(2) Hamiltonian lattice gauge theory is shown explicitly to be equivalent to a nonrelativistic...
In this work, we study various Monte Carlo methods for lattice gauge theories. The mass of the 0+ gl...
The lowest-lying glueball masses are computed in SU($N$) gauge theory on a spacetime lattice for con...
AbstractA Padé approximation approach, rooted in an infrared moment technique, is employed to provid...