Quantum Monte Carlo simulations of 4He in a perturbed nanopore show Friedel oscillations in a bosonic Luttinger liquid, with Luttinger liquid theory used to predict signatures in elastic scattering and mass transport.
Giamarchi, Quantum Physics in One Dimension (Ox- ford University Press, 2003)
4 Pith papers cite this work. Polarity classification is still indexing.
verdicts
UNVERDICTED 4representative citing papers
Strong interactions in a large 1D quantum gas induce a crossover to 3D behavior, causing failure of standard 1D models and producing distinct breathing-mode frequency plateaus from 1D and 3D hydrodynamics.
Metallic reservoirs in a 1D bilayer enhance superconducting susceptibility and correlation length via boosted pairing strength and mediated pair-pair coupling, allowing near long-range order.
MPS simulations of photodoped Hubbard ladders derive a spin-charge sum rule and demonstrate pump-direction-dependent spectral weight transfer from antiferromagnetic spin response to low-energy charge response, yielding a nonthermal correlated metal.
citing papers explorer
-
Friedel oscillations in one-dimensional 4He
Quantum Monte Carlo simulations of 4He in a perturbed nanopore show Friedel oscillations in a bosonic Luttinger liquid, with Luttinger liquid theory used to predict signatures in elastic scattering and mass transport.
-
Strong interaction induced dimensional crossover in 1D quantum gas
Strong interactions in a large 1D quantum gas induce a crossover to 3D behavior, causing failure of standard 1D models and producing distinct breathing-mode frequency plateaus from 1D and 3D hydrodynamics.
-
Strong enhancements to superconducting properties of 1D systems from metallic reservoirs
Metallic reservoirs in a 1D bilayer enhance superconducting susceptibility and correlation length via boosted pairing strength and mediated pair-pair coupling, allowing near long-range order.
-
Dynamical correlations and nonequilibrium sum rules in photodoped Hubbard ladders
MPS simulations of photodoped Hubbard ladders derive a spin-charge sum rule and demonstrate pump-direction-dependent spectral weight transfer from antiferromagnetic spin response to low-energy charge response, yielding a nonthermal correlated metal.