Strongly interacting many-body systems remain a central challenge of modern physics. Recent developments in the field of ultra-cold atomic physics have opened a new window onto this enduring problem. Experimental progress has revolutionized the approach to studying many-body systems and the exotic behaviors that emerge in these systems. It is now possible to engineer and directly measure a variety of models that can capture the essential features of real materials without the added complexity of disorder, impurities, or complicated or irregular geometries. The parameters of these models can be freely tuned with tremendous precision. These experimental realizations are an ideal setting in which to test and calibrate computational many-body ...
Ultracold Fermi gas is an exciting field benefiting from atomic physics, optical physics and condens...
AbstractWe discuss the importance of the fermion nodes for the quantum Monte Carlo (QMC) methods and...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Strongly interacting many-body systems remain a central challenge of modern physics. Recent developm...
The study of strongly correlated quantum many-body systems is an outstanding challenge. Highly accur...
The recent experimental realization of spin-orbit coupled Fermi gases provides a unique opportunity ...
The progress of ultracold atoms renders numerous possibilities to investigate exotic magnetism and s...
Four-Fermi quantum field theories in (2+1) dimensions lie among the simplest models in high-energy p...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Precise understanding of strongly interacting fermions, from electrons in modern materials to nuclea...
Thanks to the recent experimental realization and control of artificial gauge fields, spin-orbit (SO...
The admixture of spin-singlet and spin-triplet pairing states in superconductors can be typically in...
The dissertation explores the effects of synthetic spin-orbit coupling on the behaviour of quantum g...
We study the interplay between superfluidity and magnetism in a multicomponent gas of ultracold ferm...
Generation and study of synthetic gauge fields has enhanced the possibility of using cold atom syste...
Ultracold Fermi gas is an exciting field benefiting from atomic physics, optical physics and condens...
AbstractWe discuss the importance of the fermion nodes for the quantum Monte Carlo (QMC) methods and...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Strongly interacting many-body systems remain a central challenge of modern physics. Recent developm...
The study of strongly correlated quantum many-body systems is an outstanding challenge. Highly accur...
The recent experimental realization of spin-orbit coupled Fermi gases provides a unique opportunity ...
The progress of ultracold atoms renders numerous possibilities to investigate exotic magnetism and s...
Four-Fermi quantum field theories in (2+1) dimensions lie among the simplest models in high-energy p...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...
Precise understanding of strongly interacting fermions, from electrons in modern materials to nuclea...
Thanks to the recent experimental realization and control of artificial gauge fields, spin-orbit (SO...
The admixture of spin-singlet and spin-triplet pairing states in superconductors can be typically in...
The dissertation explores the effects of synthetic spin-orbit coupling on the behaviour of quantum g...
We study the interplay between superfluidity and magnetism in a multicomponent gas of ultracold ferm...
Generation and study of synthetic gauge fields has enhanced the possibility of using cold atom syste...
Ultracold Fermi gas is an exciting field benefiting from atomic physics, optical physics and condens...
AbstractWe discuss the importance of the fermion nodes for the quantum Monte Carlo (QMC) methods and...
An innovative way to produce quantum Hall ribbons in a cold atomic system is to use M hyperfine stat...