Add to ORKGWe present a method for ordering two-nucleon interactions based upon their scaling with the number of QCD colors, $N_c$, in the limit that $N_c$ becomes large. Available data in the two-nucleon sector shows general agreement with this ordering, indicating that the method may be useful in other contexts where data is less readily available. However, several caveats and potential pitfalls can make the large-$N_c$ ordering fragile and/or vulnerable to misinterpretation. We discuss the application of the large-$N_c$ analysis to two- and three-nucleon interactions, including those originating from weak and beyond-the-standard-model interactions, as well as two-nucleon external currents. Finally, we discuss some open questions in the field.Commen...
We study the large N θ dependence and the η ′ potential in supersymmetric QCD with small soft SUSY-b...
We study the importance of few-nucleon forces in chiral effective field theory for describing many-n...
Decays and scattering events are two of the principal ways to learn about particle physics. Decays, ...
We present new maximally local two-nucleon interactions derived in delta-less chiral effective field...
In this dissertation, three problems--one in meson physics, one in baryon physics, and one in nuclea...
The large N{sub c} limit provides a good phenomenology of meson spectra and interactions, I discuss ...
This talk comments the main features of a hadronic description of QCD in the limit of large number o...
The construction of the effective Lagrangian relevant for the mesonic sector of QCD in the large N_c...
Stimulated by a recent paper by Buchmann and Lebed,a comparison is presented of the two methods ment...
QCD with a finite baryon chemical potential, despite its importance, is not well understood because ...
AbstractIn the large Nc (number of colors) limit, quenched QCD and QCD are identical. This implies t...
A comparison is presented of the two methods mentioned in the title for treating hadron properties i...
Recent proposals for the use of light nuclei as dark matter direct detection targets necessitate a s...
A comparison is presented of the two methods mentioned in the title for treating hadron properties i...
The Corrigan-Ramond model for large-N QCD is analyzed in detail. The spectrum, leading-order results...
We study the large N θ dependence and the η ′ potential in supersymmetric QCD with small soft SUSY-b...
We study the importance of few-nucleon forces in chiral effective field theory for describing many-n...
Decays and scattering events are two of the principal ways to learn about particle physics. Decays, ...
We present new maximally local two-nucleon interactions derived in delta-less chiral effective field...
In this dissertation, three problems--one in meson physics, one in baryon physics, and one in nuclea...
The large N{sub c} limit provides a good phenomenology of meson spectra and interactions, I discuss ...
This talk comments the main features of a hadronic description of QCD in the limit of large number o...
The construction of the effective Lagrangian relevant for the mesonic sector of QCD in the large N_c...
Stimulated by a recent paper by Buchmann and Lebed,a comparison is presented of the two methods ment...
QCD with a finite baryon chemical potential, despite its importance, is not well understood because ...
AbstractIn the large Nc (number of colors) limit, quenched QCD and QCD are identical. This implies t...
A comparison is presented of the two methods mentioned in the title for treating hadron properties i...
Recent proposals for the use of light nuclei as dark matter direct detection targets necessitate a s...
A comparison is presented of the two methods mentioned in the title for treating hadron properties i...
The Corrigan-Ramond model for large-N QCD is analyzed in detail. The spectrum, leading-order results...
We study the large N θ dependence and the η ′ potential in supersymmetric QCD with small soft SUSY-b...
We study the importance of few-nucleon forces in chiral effective field theory for describing many-n...
Decays and scattering events are two of the principal ways to learn about particle physics. Decays, ...