Nuclear effective field theory is applied to the effective-range expansion of S-wave nucleon-nucleon scattering on a discrete lattice. Lattice regularization is demonstrated to yield the effective-range expansion in the same way as in the usual continuous open space. The relation between the effective-range parameters and the potential parameters is presented in the limit of a large lattice
We extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present results ...
AbstractWe extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present ...
We discuss lattice simulations of light nuclei at leading order in chiral effective field theory. Us...
AbstractWe investigate Nuclear Lattice Effective Field Theory for the two-body system for several la...
AbstractThe two-nucleon sector is near an infrared fixed point of QCD and as a result the S-wave sca...
A confluence of theoretical and technological developments are beginning to make possible contributi...
We study an effective field theory of interacting nucleons at distances much greater than the pion's...
An effective field theory treatment of nucleon-nucleon scattering at low energy shows much promise a...
This primer begins with a brief introduction to the main ideas underlying Effective Field Theory (EF...
We review many body calculations of the equation of state of dilute neutron matter in the context of...
This paper examines the role that regularization plays in the definition of the potential used in ef...
I review recent progress in developing a systematic power counting scheme for scattering processes i...
The off-shell momentum subtraction (OS) and power divergence subtraction (PDS) renormalization schem...
The two-nucleon sector is near an infrared fixed point of QCD and as a result the S-wave scattering ...
In the first part of the thesis we consider the constraints of causality and unitarity for particles...
We extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present results ...
AbstractWe extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present ...
We discuss lattice simulations of light nuclei at leading order in chiral effective field theory. Us...
AbstractWe investigate Nuclear Lattice Effective Field Theory for the two-body system for several la...
AbstractThe two-nucleon sector is near an infrared fixed point of QCD and as a result the S-wave sca...
A confluence of theoretical and technological developments are beginning to make possible contributi...
We study an effective field theory of interacting nucleons at distances much greater than the pion's...
An effective field theory treatment of nucleon-nucleon scattering at low energy shows much promise a...
This primer begins with a brief introduction to the main ideas underlying Effective Field Theory (EF...
We review many body calculations of the equation of state of dilute neutron matter in the context of...
This paper examines the role that regularization plays in the definition of the potential used in ef...
I review recent progress in developing a systematic power counting scheme for scattering processes i...
The off-shell momentum subtraction (OS) and power divergence subtraction (PDS) renormalization schem...
The two-nucleon sector is near an infrared fixed point of QCD and as a result the S-wave scattering ...
In the first part of the thesis we consider the constraints of causality and unitarity for particles...
We extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present results ...
AbstractWe extend Nuclear Lattice Effective Field Theory (NLEFT) to medium-mass nuclei, and present ...
We discuss lattice simulations of light nuclei at leading order in chiral effective field theory. Us...