Digital Commons @ Trinity

Complex Collisions of Ultracold Molecules: A Toy Model, J. K. Yao, Cooper A. Johnson, Nirav P. Mehta, Kaden R. A Hazzard
Physics and Astronomy Faculty Research

Complex Collisions of Ultracold Molecules: A Toy Model, J. K. Yao, Cooper A. Johnson, Nirav P. Mehta, Kaden R. A Hazzard
Nirav P Mehta

Scattering of Two Particles in a One-Dimensional Lattice, Seth T. Rittenhouse, P. Giannakeas, Nirav P. Mehta
Physics and Astronomy Faculty Research

Scattering of Two Particles in a One-Dimensional Lattice, Seth T. Rittenhouse, P. Giannakeas, Nirav P. Mehta
Nirav P Mehta

Model for scattering with proliferating resonances: Many coupled square wells, Nirav P. Mehta, Kaden R. A Hazzard, Christopher Ticknor
Physics and Astronomy Faculty Research

Lattice-Model Parameters for Ultracold Nonreactive Molecules: Chaotic Scattering and Its Limitations, Michael L. Wall, Rick Mukherjee, Shah Saad Alam, Nirav P. Mehta, Kaden R. A Hazzard
Nirav P Mehta

Microscopic Derivation of Multichannel Hubbard Models for Ultracold Nonreactive Molecules in an Optical Lattice, Michael L. Wall, Nirav P. Mehta, Rick Mukherjee, Shah Saad Alam, Kaden R. A Hazzard
Nirav P Mehta

Model for scattering with proliferating resonances: Many coupled square wells, Nirav P. Mehta, Kaden R. A Hazzard, Christopher Ticknor
Nirav P Mehta

Lattice-Model Parameters for Ultracold Nonreactive Molecules: Chaotic Scattering and Its Limitations, Michael L. Wall, Rick Mukherjee, Shah Saad Alam, Nirav P. Mehta, Kaden R. A Hazzard
Physics and Astronomy Faculty Research

Microscopic Derivation of Multichannel Hubbard Models for Ultracold Nonreactive Molecules in an Optical Lattice, Michael L. Wall, Nirav P. Mehta, Rick Mukherjee, Shah Saad Alam, Kaden R. A Hazzard
Physics and Astronomy Faculty Research

A Variational Approach to Repulsively Interacting Three-Fermion Systems in a One-Dimensional Harmonic Trap, Niels Jacob S Loft, Amin S. Dehkharghani, Nirav P. Mehta, Artem G. Volosniev, Nikolaj T. Zinner
Nirav P Mehta

Few-Boson Processes in the Presence of an Attractive Impurity Under One-Dimensional Confinement, Nirav P. Mehta, Connor D. Morehead
Physics and Astronomy Faculty Research

A Variational Approach to Repulsively Interacting Three-Fermion Systems in a One-Dimensional Harmonic Trap, Niels Jacob S Loft, Amin S. Dehkharghani, Nirav P. Mehta, Artem G. Volosniev, Nikolaj T. Zinner
Physics and Astronomy Faculty Research

Born-Oppenheimer Study of Two-Component Few-Particle Systems Under One-Dimensional Confinement, Nirav P. Mehta
Physics and Astronomy Faculty Research

Dimer-dimer collisions at finite energies in two-component Fermi gases, J P. D'Incao, Seth T. Rittenhouse, Nirav P. Mehta, Chris H. Greene
Nirav P Mehta

The hyperspherical four-fermion problem, Seth T. Rittenhouse, J von Stecher, J P. D'Incao, Nirav P. Mehta, Chris H. Greene
Nirav P Mehta

The Hyperspherical Four-Fermion Problem, Seth T. Rittenhouse, J von Stecher, J P. D'Incao, Nirav P. Mehta, Chris H. Greene
Physics and Astronomy Faculty Research

Green’s Functions and the Adiabatic Hyperspherical Method, Seth T. Rittenhouse, Nirav P. Mehta, Chris H. Greene
Physics and Astronomy Faculty Research

General Theoretical Description of N-Body Recombination, Nirav P. Mehta, Seth T. Rittenhouse, J P. D’Incao, J von Stecher, Chris H. Greene
Physics and Astronomy Faculty Research

Dimer-Dimer Collisions at Finite Energies in Two-Component Fermi Gases, J P. D'Incao, Seth T. Rittenhouse, Nirav P. Mehta, Chris H. Greene
Physics and Astronomy Faculty Research

Efimov States Embedded in the Three-Body Continuum, Nirav P. Mehta, Seth T. Rittenhouse, J P. D’Incao, Chris H. Greene
Physics and Astronomy Faculty Research

Three-Body Recombination in One Dimension, Nirav P. Mehta, B D. Esry, Chris H. Greene
Physics and Astronomy Faculty Research

Three Bosons in One Dimension with Short-Range Interactions: Zero-Range Potentials, Nirav P. Mehta, James R. Shepard
Physics and Astronomy Faculty Research

Low-energy operators in effective theories, C Felline, Nirav P. Mehta, J Piekarewicz, James R. Shepard
Physics and Astronomy Faculty Research