Fluctuation-induced forces in confined ideal and imperfect Bose gases

Diehl, H. W.; Rutkevich, S. B.

doi:10.1103/physreve.95.062112

Cited by 15 publications

(44 citation statements)

References 56 publications

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“…More precisely, as established in Ref. [35] for the isotropic case, the imperfect Bose gas is equivalent to the O(2N ) model in the limit N → ∞ and the corresponding scaling functions [36,37] for Casimir energy differ by a global factor of two. One may check that (at least for periodic and von Neumann boundary conditions) the form of the dispersion has no impact on the study of Ref.…”

Section: Introductionmentioning

confidence: 83%

“…The equivalence of the presently analyzed model and interacting N -component bosons was investigated in Ref. [35] for N → ∞. In particular the existence of this limit was established therein.…”

Section: Excess Grand Canonical Free Energymentioning

confidence: 93%

“…Different aspects of this model were studied in recent years [35,[39][40][41][42][43][44][45][46] considering both its bulk and finite-size properties. In particular, for the isotropic continuum case it was established [35,43] that the Bose-Einstein condensation in this model is a representative of bulk O(N → ∞) universality class.…”

Section: The Mean-field Bose Gasmentioning

confidence: 99%

“…One may check that (at least for periodic and von Neumann boundary conditions) the form of the dispersion has no impact on the study of Ref. [35] in the aspects exploring connections between the imperfect Bose gas, the interacting N -component Bose gas in the limit N → ∞, and the classical Landau-Ginzburg φ 4 -type theory. In consequence an analogous correspondence holds for the anisotropic situations as well.…”

Section: Introductionmentioning

confidence: 99%

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Thermodynamic Casimir forces in strongly anisotropic systems within the $N\to \infty$ class

Łebek

Jakubczyk

2021

SciPost Phys. Core

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We analyze the thermodynamic Casimir effect in strongly anisotropic systems from the vectorial N\to\inftyN→∞ class in a slab geometry. Employing the imperfect (mean-field) Bose gas as a representative example, we demonstrate the key role of spatial dimensionality dd in determining the character of the effective fluctuation-mediated interaction between the confining walls. For a particular, physically conceivable choice of anisotropic dispersion relation and periodic boundary conditions, we show that the Casimir force at criticality as well as within the low-temperature phase is repulsive for dimensionality d\in (\frac{5}{2},4)\cup (6,8)\cup (10,12)\cup\dotsd∈(52,4)∪(6,8)∪(10,12)∪… and attractive for d\in (4,6)\cup (8,10)\cup \dotsd∈(4,6)∪(8,10)∪…. We argue, that for d\in\{4,6,8\dots\}d∈{4,6,8…} the Casimir interaction entirely vanishes in the scaling limit. We discuss implications of our results for systems characterized by 1/N>01/N>0 and possible realizations in the contexts of optical lattice systems and quantum phase transitions.

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Section: Introductionmentioning

confidence: 83%

Section: Excess Grand Canonical Free Energymentioning

confidence: 93%

Section: The Mean-field Bose Gasmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Thermodynamic Casimir forces in strongly anisotropic systems within the $N\to \infty$ class

Łebek

Jakubczyk

2021

SciPost Phys. Core

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“…In the recent years the topics of the Casimir effect and the corresponding Casimir force in Bose systems that is gaining attention [18][19][20][21][22][23][24][25][26][27][28][29][30]. The Casimir force in ideal Bose gas has been studied in [19,20,22]. The case of the imperfect Bose gas has been investigated in [22][23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Exact results for the Casimir force of a three-dimensional model of relativistic Bose gas in a film geometry

Dantchev

2019

Preprint

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Recently it has been suggested that relativistic Bose gas of some type can be playing role in issues like dark matter, dark energy, and in some cosmological problems. In the current article we investigate one known exactly solvable model of three-dimensional statistical-mechanical model of relativistic Bose gas that takes into account the existence of both particles and antiparticles. We derive exact expressions for the behavior of the Casimir force for the system subjected to film geometry under periodic boundary conditions. We show that the Casimir force between the plates is attractive, monotonic as a function of the temperature scaling variable, with a scaling function that approaches at low temperatures a universal negative constant equal to the corresponding one for two-component three dimensional Gaussian system. The force decays with the distance in a power law near and below the bulk critical temperature T c of the Bose condensate and exponentially above T c . We obtain closed form exact expression for the Casimir amplitude ∆ RBG Cas = −4ζ(3)/(5π). We establish the precise correspondence of the scaling function of the free energy of the model with the scaling functions of two other well-known models of statistical mechanics -the spherical model and the imperfect Bose gas model.

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Condensation and superfluidity of SU(N) Bose gas

Hryhorchak

Pastukhov

2020

Physica B: Condensed Matter

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We perform the comprehensive comparison of properties of the condensate and superfluid densities for the N -component three-dimensional Bose gas with the symmetric inter-and intraspecies shortrange interaction between particles. In particular, based on the large-N expansion approach for many-boson systems we obtain general expression for density of the superfluid component that at very low temperatures reproduce the well-know Landau's formula and non-trivially includes the thermal fluctuations in the finite-temperature region, and compare it to the condensate density calculated previously. The numerically evaluated temperature dependencies are in a qualitatively good agreement with the results of Monte Carlo simulations.

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Fluctuation-induced forces in confined ideal and imperfect Bose gases

Cited by 15 publications

References 56 publications

Thermodynamic Casimir forces in strongly anisotropic systems within the $N\to \infty$ class

Thermodynamic Casimir forces in strongly anisotropic systems within the $N\to \infty$ class

Exact results for the Casimir force of a three-dimensional model of relativistic Bose gas in a film geometry

Condensation and superfluidity of SU(N) Bose gas

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