Add to ORKGWe study the excited states of interacting fermions in one dimension with particle-hole symmetric disorder (equivalently, random-bond XXZ chains) using a combination of renormalization group methods and exact diagonalization. Absent interactions, the entire many-body spectrum exhibits infinite-randomness quantum critical behavior with highly degenerate excited states. We show that though interactions are an irrelevant perturbation in the ground state, they drastically affect the structure of excited states: Even arbitrarily weak interactions split the degeneracies in favor of thermalization (weak disorder) or spontaneously broken particle-hole symmetry, driving the system into a many-body localized spin glass phase (strong disorder). In bot...
The concept of geometrical frustration has led to rich insights into condensed matter physics, espec...
We study the finite-energy density phase diagram of spinless fermions with attractive interactions i...
Strong quantum correlations between many particles in low dimensions lead to emergence of interestin...
We study the excited states of interacting fermions in one dimension with particle-hole symmetric di...
While the essential features of wide classes of phases of matter are well-captured by the convention...
Many-body localization (MBL), the disorder-induced localization of interacting particles, signals a ...
Isolated, many-body quantum systems, evolving under their intrinsic dynamics, exhibit a multitude of...
We study interacting fermions in one dimension subject to random, uncorrelated onsite disorder, a pa...
This dissertation establishes and investigates new phenomena in diverse interacting many-body quantu...
We study the finite-energy density phase diagram of spinless fermions with attractive interactions ...
Impurities, defects, and other types of imperfections are ubiquitous in realistic quantum many-body ...
Spin chains with symmetry-protected edge zero modes can be seen as prototypical systems for explorin...
We study effects of disorder on eigenstates of 1D two-component fermions with infinitely strong Hubb...
We study a new class of unconventional critical phenomena that is characterized by singularities onl...
We study the nonequilibrium phase structure of the three-state random quantum Potts model in one dim...
The concept of geometrical frustration has led to rich insights into condensed matter physics, espec...
We study the finite-energy density phase diagram of spinless fermions with attractive interactions i...
Strong quantum correlations between many particles in low dimensions lead to emergence of interestin...
We study the excited states of interacting fermions in one dimension with particle-hole symmetric di...
While the essential features of wide classes of phases of matter are well-captured by the convention...
Many-body localization (MBL), the disorder-induced localization of interacting particles, signals a ...
Isolated, many-body quantum systems, evolving under their intrinsic dynamics, exhibit a multitude of...
We study interacting fermions in one dimension subject to random, uncorrelated onsite disorder, a pa...
This dissertation establishes and investigates new phenomena in diverse interacting many-body quantu...
We study the finite-energy density phase diagram of spinless fermions with attractive interactions ...
Impurities, defects, and other types of imperfections are ubiquitous in realistic quantum many-body ...
Spin chains with symmetry-protected edge zero modes can be seen as prototypical systems for explorin...
We study effects of disorder on eigenstates of 1D two-component fermions with infinitely strong Hubb...
We study a new class of unconventional critical phenomena that is characterized by singularities onl...
We study the nonequilibrium phase structure of the three-state random quantum Potts model in one dim...
The concept of geometrical frustration has led to rich insights into condensed matter physics, espec...
We study the finite-energy density phase diagram of spinless fermions with attractive interactions i...
Strong quantum correlations between many particles in low dimensions lead to emergence of interestin...