Add to ORKGThe Gross-Neveu-Heisenberg universality class describes a continuous quantum phase transition between a Dirac semimetal and an antiferromagnetic insulator. Such quantum critical points have originally been discussed in the context of Hubbard models on $\pi$-flux and honeycomb lattices, but more recently also in Bernal-stacked bilayer models, of potential relevance for bilayer graphene. Here, we demonstrate how the critical behavior of this fermionic universality class can be computed within an $\epsilon$ expansion around the lower critical space-time dimension of two. This approach is complementary to the previously studied expansion around the upper critical dimension of four. The crucial technical novelty near the lower critical dimension...
We study the chiral Ising, the chiral XY, and the chiral Heisenberg models at four-loop order with t...
We study the universal critical properties of the QED$_3$-Gross-Neveu-Yukawa model with $N$ flavors ...
We perform large-scale quantum Monte Carlo simulations of SLAC fermions on a two-dimensional square ...
The various Gross-Neveu classes of quantum field theories are of interest in the study of a particul...
Gapless Dirac fermions appear as quasiparticle excitations in various condensed-matter systems. They...
We investigate the ground state phase diagram of an extended Hubbard model with $\pi$-flux hopping t...
Two-dimensional spin-orbital magnets with strong exchange frustration have recently been predicted t...
Evidence for relativistic quantum criticality of antiferromagnetism and superconductivity in two-dim...
The quantum critical behavior of the (2+1)-dimensional Gross-Neveu model in the vicinity of its zero...
We use the large N critical point formalism to compute d-dimensional critical exponents at several o...
We use the epsilon expansion to explore a new universality class of second order quantum phase trans...
The QED(3)-Gross-Neveu model is a (2 + 1)-dimensional U(1) gauge theory involving Dirac fermions and...
The critcal exponent $\omega$ is evaluated at $O(1/N)$ in $d$-dimensions in the Gross-Neveu model us...
Initial characterizations of the fermion sign problem focused on its evolution with spatial lattice ...
Numerical studies of the transition between Néel and valence bond solid phases in two-dimensional qu...
We study the chiral Ising, the chiral XY, and the chiral Heisenberg models at four-loop order with t...
We study the universal critical properties of the QED$_3$-Gross-Neveu-Yukawa model with $N$ flavors ...
We perform large-scale quantum Monte Carlo simulations of SLAC fermions on a two-dimensional square ...
The various Gross-Neveu classes of quantum field theories are of interest in the study of a particul...
Gapless Dirac fermions appear as quasiparticle excitations in various condensed-matter systems. They...
We investigate the ground state phase diagram of an extended Hubbard model with $\pi$-flux hopping t...
Two-dimensional spin-orbital magnets with strong exchange frustration have recently been predicted t...
Evidence for relativistic quantum criticality of antiferromagnetism and superconductivity in two-dim...
The quantum critical behavior of the (2+1)-dimensional Gross-Neveu model in the vicinity of its zero...
We use the large N critical point formalism to compute d-dimensional critical exponents at several o...
We use the epsilon expansion to explore a new universality class of second order quantum phase trans...
The QED(3)-Gross-Neveu model is a (2 + 1)-dimensional U(1) gauge theory involving Dirac fermions and...
The critcal exponent $\omega$ is evaluated at $O(1/N)$ in $d$-dimensions in the Gross-Neveu model us...
Initial characterizations of the fermion sign problem focused on its evolution with spatial lattice ...
Numerical studies of the transition between Néel and valence bond solid phases in two-dimensional qu...
We study the chiral Ising, the chiral XY, and the chiral Heisenberg models at four-loop order with t...
We study the universal critical properties of the QED$_3$-Gross-Neveu-Yukawa model with $N$ flavors ...
We perform large-scale quantum Monte Carlo simulations of SLAC fermions on a two-dimensional square ...