Your search keyword '"Giulia De Rosi"' showing total 2 results

1. Beyond-Luttinger-liquid thermodynamics of a one-dimensional Bose gas with repulsive contact interactions

Author

Giulia De Rosi, Pietro Massignan, Maciej Lewenstein, and Grigori E. Astrakharchik

Subjects

Physics, QC1-999

Abstract

We present a thorough study of the thermodynamics of a one-dimensional repulsive Bose gas, focusing in particular on corrections beyond the Luttinger-liquid description. We compute the chemical potential, pressure, and contact as a function of temperature and gas parameter with an exact thermal Bethe ansatz. In addition, we provide interpretations of the main features in the analytically tractable regimes, based on a variety of approaches (Bogoliubov, hard core, Sommerfeld, and virial). The beyond-Luttinger-liquid thermodynamic effects are found to be nonmonotonic as a function of gas parameter. Such behavior is explained in terms of nonlinear dispersion and “negative excluded volume” effects, for weak and strong repulsion, respectively, responsible for the opposite sign corrections in the thermal next-to-leading term of the thermodynamic quantities at low temperatures. Our predictions can be applied to other systems including super Tonks-Girardeau gases, dipolar and Rydberg atoms, helium, quantum liquid droplets in bosonic mixtures, and impurities in a quantum bath.

Published

2019

2. Beyond-Luttinger-liquid thermodynamics of a one-dimensional Bose gas with repulsive contact interactions

Author

Pietro Massignan, Grigori E. Astrakharchik, Maciej Lewenstein, Giulia De Rosi, Universitat Politècnica de Catalunya. Departament de Física, and Universitat Politècnica de Catalunya. SIMCON - First-principles approaches to condensed matter physics: quantum effects and complexity

Subjects

Work (thermodynamics), Thermal properties, Bose gas, Quantum gas, Física::Física de partícules [Àrees temàtiques de la UPC], Física::Física de l'estat sòlid [Àrees temàtiques de la UPC], Bose-Einstein gas, Spinless fermions, Hard-core bosons, 01 natural sciences, Bethe-ansatz technique, 010305 fluids & plasmas, Bethe ansatz, Quasiparticles & collective excitations, Luttinger liquid, Quantum mechanics, 0103 physical sciences, Thermal, Dinàmica de gasos, Termodinàmica, Limit (mathematics), Quasipartícules (Física), 010306 general physics, Fermions, Bosons, Physics, Condensed Matter::Quantum Gases, Hartree-Fock approximation, Spectrum (functional analysis), Hartree-Fock methods, Bose gases, Quasiparticles (Physics), 3. Good health, Perturbative methods, 13. Climate action

Abstract

We present a thorough study of the thermodynamics of a one-dimensional repulsive Bose gas, focusing in particular on corrections beyond the Luttinger-liquid description. We compute the chemical potential, pressure, and contact as a function of temperature and gas parameter with an exact thermal Bethe ansatz. In addition, we provide interpretations of the main features in the analytically tractable regimes, based on a variety of approaches (Bogoliubov, hard core, Sommerfeld, and virial). The beyond-Luttinger-liquid thermodynamic effects are found to be nonmonotonic as a function of gas parameter. Such behavior is explained in terms of nonlinear dispersion and “negative excluded volume” effects, for weak and strong repulsion, respectively, responsible for the opposite sign corrections in the thermal next-to-leading term of the thermodynamic quantities at low temperatures. Our predictions can be applied to other systems including super Tonks-Girardeau gases, dipolar and Rydberg atoms, helium, quantum liquid droplets in bosonic mixtures, and impurities in a quantum bath.

Published

2019