Add to ORKGWe discuss the renormalization of the lattice formulation of the Heavy Quark Effective Theory (LHQET). In addition to wave function and composite operator renormalizations, on the lattice the classical velocity is also renormalized. The origin of this renormalization is the reduction of Lorentz (or O(4)) invariance to (hyper)cubic invariance. We present results of a new, direct lattice simulation of this finite renormalization, and compare the results to the perturbative (one loop) result. The simulation results are obtained with the use of a variationally optimized heavy-light meson operator, using an ensemble of lattices provided by the Fermilab ACP-MAPS collaboration
We systematically examine various proposals which aim at increasing the accuracy in the determinatio...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
We have technically improved the non-perturbative renormalization method, proposed by Martinelli et ...
In the lattice formulation of the Heavy Quark Effective Theory (LHQET), the classical velocity becom...
In the lattice formulation of the Heavy Quark Effective Theory, the value of the classical velocity ...
We compute the perturbative renormalization factors required to match to the continuum Isgur-Wise fu...
We compute the Isgur-Wise function using heavy quark effective theory formulated on the lattice. The...
The slope of the Isgur-Wise function at the normalization point, xi(1) (1), is one of the basic para...
The effective theory describing infinite mass particles with a given velocity, has a great interest ...
I review a number of theoretical issues in the computation of quantities in heavy-quark physics on t...
We explain how the strategy of solving renormalization problems in HQET non-perturbatively by a matc...
We perform a non-perturbative study of the scale-dependent renormalization factors of a multiplicati...
We carry out the non-perturbative renormalization of the chromo-magnetic operator in Heavy Quark Eff...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
We systematically examine various proposals which aim at increasing the accuracy in the determinatio...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
We have technically improved the non-perturbative renormalization method, proposed by Martinelli et ...
In the lattice formulation of the Heavy Quark Effective Theory (LHQET), the classical velocity becom...
In the lattice formulation of the Heavy Quark Effective Theory, the value of the classical velocity ...
We compute the perturbative renormalization factors required to match to the continuum Isgur-Wise fu...
We compute the Isgur-Wise function using heavy quark effective theory formulated on the lattice. The...
The slope of the Isgur-Wise function at the normalization point, xi(1) (1), is one of the basic para...
The effective theory describing infinite mass particles with a given velocity, has a great interest ...
I review a number of theoretical issues in the computation of quantities in heavy-quark physics on t...
We explain how the strategy of solving renormalization problems in HQET non-perturbatively by a matc...
We perform a non-perturbative study of the scale-dependent renormalization factors of a multiplicati...
We carry out the non-perturbative renormalization of the chromo-magnetic operator in Heavy Quark Eff...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
We systematically examine various proposals which aim at increasing the accuracy in the determinatio...
In the large-momentum effective field theory approach to parton physics, the matrix elements of nonl...
We have technically improved the non-perturbative renormalization method, proposed by Martinelli et ...