The design and implementation of large sets of spatially extended baryon operators for use in lattice simulations are described. The operators are constructed to maximize overlaps with the low-lying states of interest, while minimizing the number of sources needed in computing the required quark propagators
Whereas ground state spectroscopy for quenched QCD is well understood, it is still a challenge to ob...
An extended multi-hadron operator is developed to extract the spectra of irreducible representations...
We describe methods for constructing lattice operators that maintain their overlap onto the desired ...
The design and implementation of large sets of spatially extended, gauge-invariant operators for use...
Large sets of baryon interpolating field operators are developed for use in lattice QCD studies of b...
Irreducible representations (IRs) of the double-covered octahedral group are used to construct latti...
Progress in computing the spectrum of excited baryons and mesons in lattice QCD is described. Large ...
The construction of the operators and correlators required to determine the excited baryon spectrum ...
A previously-proposed method of constructing spatially-extended gauge-invariant three-quark operator...
Multi-hadron operators are crucial for reliably extracting the masses of excited states lying above ...
The issues involved in a determination of the baryon resonance spectrum in lattice QCD are discussed...
Determining the spectrum of hadronic excitations from Monte Carlo simulations requires the use of in...
New extended interpolating operators made of quenched three dimensional fermions are introduced in ...
We describe a method to construct irreducible baryon operators using all-to-all quark propagators. I...
We study baryons on the lattice with a special focus on excited states. For that purpose we construc...
Whereas ground state spectroscopy for quenched QCD is well understood, it is still a challenge to ob...
An extended multi-hadron operator is developed to extract the spectra of irreducible representations...
We describe methods for constructing lattice operators that maintain their overlap onto the desired ...
The design and implementation of large sets of spatially extended, gauge-invariant operators for use...
Large sets of baryon interpolating field operators are developed for use in lattice QCD studies of b...
Irreducible representations (IRs) of the double-covered octahedral group are used to construct latti...
Progress in computing the spectrum of excited baryons and mesons in lattice QCD is described. Large ...
The construction of the operators and correlators required to determine the excited baryon spectrum ...
A previously-proposed method of constructing spatially-extended gauge-invariant three-quark operator...
Multi-hadron operators are crucial for reliably extracting the masses of excited states lying above ...
The issues involved in a determination of the baryon resonance spectrum in lattice QCD are discussed...
Determining the spectrum of hadronic excitations from Monte Carlo simulations requires the use of in...
New extended interpolating operators made of quenched three dimensional fermions are introduced in ...
We describe a method to construct irreducible baryon operators using all-to-all quark propagators. I...
We study baryons on the lattice with a special focus on excited states. For that purpose we construc...
Whereas ground state spectroscopy for quenched QCD is well understood, it is still a challenge to ob...
An extended multi-hadron operator is developed to extract the spectra of irreducible representations...
We describe methods for constructing lattice operators that maintain their overlap onto the desired ...
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