Simulation of dynamical properties of normal and superfluid helium.
Akira Nakayama,Nancy Makri +1 more
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This simulation demonstrates that the peak enhancement observed in the neutron scattering experiments below the transition temperature arises exclusively from particle exchange, illuminating the role of Bose-statistical effects on the dynamics of the quantum liquid.Abstract:
The formation of a superfluid when 4He is cooled below the characteristic lambda transition temperature is accompanied by intricate quantum mechanical phenomena, including the emergence of a Bose condensate. A combination of path integral and semiclassical techniques is used to calculate the single-particle velocity autocorrelation function across the normal-to-superfluid transition. We find that the inclusion of particle exchange alters qualitatively the shape of the correlation function below the characteristic transition temperature but has no noticeable effect on the dynamics in the normal phase. The incoherent structure factor extracted from the velocity autocorrelation function is in very good agreement with neutron scattering data, reproducing the width, height, frequency shift, and asymmetry of the curves, as well as the observed increase in peak height characteristic of the superfluid phase. Our simulation demonstrates that the peak enhancement observed in the neutron scattering experiments below the transition temperature arises exclusively from particle exchange, illuminating the role of Bose-statistical effects on the dynamics of the quantum liquid.read more
Citations
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Analytic continuation average spectrum method for transport in quantum liquids
TL;DR: In this paper, the authors further developed the analytic continuation averaged spectrum method (ASM) to study single-particle dynamics in quantum liquids with dynamical susceptibilities that are characterized by a smooth spectrum and found that for the power spectrum of the velocity autocorrelation function there are pronounced differences in comparison with the MaxEnt approach, even for this simple case of smooth unimodal dynamic response.
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Constant Pressure Path Integral Gibbs Ensemble Monte Carlo Method.
Piotr Kowalczyk,Piotr A. Gauden,Artur P. Terzyk,Evangelia Pantatosaki,George K. Papadopoulos +4 more
TL;DR: CP-PIGEMC is a particularly useful method for simulation of one-component quantum fluid composed of Boltzmannons at finite temperatures, when the chemical potential is difficult to measure or calculate explicitly.
Novel Quantum Monte Carlo Approaches for Quantum Liquids
TL;DR: In this paper, the authors present two new quantum Monte Carlo techniques, the Monte Carlo Power Method and Bose-Fermi Auxiliary-Field Quantum Monte Carlo, and apply previously developed Path Integral Monte Carlo methods to explore two new phases of quantum hard spheres and hydrogen.
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On the mode-coupling treatment of collective density fluctuations for quantum liquids: Para-hydrogen and normal liquid helium
TL;DR: A novel quantum mode coupling theory combined with a kinetic approach is developed for the description of collective density fluctuations in quantum liquids characterized by Boltzmann statistics and fails for normal liquid helium.
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Low-temperature correlation functions via forward–backward quantum dynamics
Jonathan Chen,Nancy Makri +1 more
TL;DR: In this paper, an extension of forward-backward quantum dynamics suitable for evaluating finite-temperature time correlation functions for one-dimensional systems at low temperatures is presented, which relies on the cooling action of the Boltzmann operator, which produces a state similar to the lowest energy eigenstate with the given symmetry.
References
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Bose-Einstein condensation
TL;DR: The Bose-Einstein condensation (BEC) phenomenon was first introduced by Bose as discussed by the authors, who derived the Planck law for black-body radiation by treating the photons as a gas of identical particles.
BookDOI
Theory Of Quantum Liquids
TL;DR: In this article, the two-fluid model is used to model elementary excitement in He II and the response to a transverse probe is described as a superfluid flow.
Journal ArticleDOI
The theory of quantum liquids
TL;DR: In this paper, the two-fluid model is used to describe the behavior of a superfluid in response to a transverse probe in a two-fluid model.
Journal ArticleDOI
Path integrals in the theory of condensed helium
TL;DR: In this paper, the authors introduce a picture of a boson superfluid and show how superfluidity and Bose condensation manifest themselves, showing the excellent agreement between simulations and experimental measurements on liquid and solid helium for such quantities as pair correlations, the superfluid density, the energy, and the momentum distribution.
Journal ArticleDOI
Bose-Einstein condensation in the alkali gases: Some fundamental concepts
TL;DR: In this paper, the authors present a tutorial review of some ideas that are basic to our current understanding of Bose-Einstein condensation in the dilute atomic alkali gases, with special emphasis on the case of two or more coexisting hyperfine species.
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