I. A. Vakarchuk, I. R. Yukhnovskii, “Microscopic theory of the energy spectrum of liquid HeII”, TMF, 42:1 (1980), 112–123; Theoret. and Math. Phys., 42:1 (1980), 73

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Teoreticheskaya i Matematicheskaya Fizika, 1980, Volume 42, Number 1, Pages 112–123 (Mi tmf3727)

This article is cited in 16 scientific papers (total in 16 papers)

Microscopic theory of the energy spectrum of liquid HeII

I. A. Vakarchuk, I. R. Yukhnovskii

Full-text PDF (1416 kB) Citations (16)

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Abstract: The wave function

ψ_{k}

$\psi_k$ of the lowest excites state of many-boson system is represented as the product of the wave function of the ground state

ψ_{0} = e^{U}

$\psi_0=e^U$ and the function

φ_{k}

$\varphi_k$ which takes into account the existence of the excitation with the momentum

ℏ k

$\hbar k$ and the energy

E (k)

$E(k)$ . The function

U

$U$ and

φ_{k}

$\varphi_k$ are represented as the series over the collective variables which are the Fourier coefficients of the operator of density fluctuations. The systems of coupled equations for the coefficient functions of these series are derived. The system of two integral equations connecting the excitation spectrum

E (k)

$E(k)$ with the structure factor of the system is obtained by means of breaking the chain of equations. This makes it possible to apply the results obtained to the liquid

{H e}^{4}

$\mathrm{He}^4$ . The damping of the spectrum is described. It is shown that the expansion of the spectrum in the limit of small momentum

ℏ k

$\hbar k$ includes the odd powers of

ℏ k

$\hbar k$ only.

Received: 25.10.1978

English version:
Theoretical and Mathematical Physics, 1980, Volume 42, Issue 1, Pages 73–80
DOI: https://doi.org/10.1007/BF01019263

Bibliographic databases:

Language: Russian

Citation: I. A. Vakarchuk, I. R. Yukhnovskii, “Microscopic theory of the energy spectrum of liquid HeII”, TMF, 42:1 (1980), 112–123; Theoret. and Math. Phys., 42:1 (1980), 73–80

Citation in format AMSBIB

\Bibitem{VakYuk80}

\by I.~A.~Vakarchuk, I.~R.~Yukhnovskii

\paper Microscopic theory of the energy spectrum of liquid HeII

\jour TMF

\yr 1980

\vol 42

\issue 1

\pages 112--123

\mathnet{http://mi.mathnet.ru/tmf3727}

\transl

\jour Theoret. and Math. Phys.

\yr 1980

\vol 42

\issue 1

\pages 73--80

\crossref{https://doi.org/10.1007/BF01019263}

\isi{https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=Publons&SrcAuth=Publons_CEL&DestLinkType=FullRecord&DestApp=WOS_CPL&KeyUT=A1980KA96200012}

Linking options:

https://www.mathnet.ru/eng/tmf3727

https://www.mathnet.ru/eng/tmf/v42/i1/p112

This publication is cited in the following 16 articles:

Maksim Tomchenko, “Dispersion Law for a One-Dimensional Weakly Interacting Bose Gas with Zero Boundary Conditions”, J Low Temp Phys, 2024
Maksim Tomchenko, “Nonuniform Bose–Einstein condensate: I. An improvement of the Gross–Pitaevskii method”, J. Phys. A: Math. Theor., 57:49 (2024), 495202
Maksim Tomchenko, “Nonuniform Bose–Einstein condensate: II. Doubly coherent states”, J. Phys. A: Math. Theor., 57:49 (2024), 495205
Maksim D. Tomchenko, “Symmetry properties of the ground state of the system of interacting spinless bosons”, Low Temperature Physics, 48:9 (2022), 651
M.P. Kozlovskii, O.A. Dobush, “Phase behavior of a cell model with Curie-Weiss interaction”, Journal of Molecular Liquids, 353 (2022), 118843
Maksim Tomchenko, “Nature of Lieb's “Hole” Excitations and Two-Phonon States of a Bose Gas”, J Low Temp Phys, 201:3-4 (2020), 463
Volodymyr Pastukhov, “Infrared Behavior of Dipolar Bose Systems at Low Temperatures”, J Low Temp Phys, 186:1-2 (2017), 148
Maksim Tomchenko, “Bose–Einstein Condensation in a One-Dimensional System of Interacting Bosons”, J Low Temp Phys, 182:5-6 (2016), 170
M.D. Tomchenko, “Microstructure of He II in the Presence of Boundaries”, Ukr. J. Phys., 59:2 (2014), 123
Vakarchuk I.O. Pastukhov V.S. Prytula R.O., “Theory of Structure and Thermodynamic Function of Liquid He-4 (Review Article)”, Low Temp. Phys., 39:9 (2013), 741–751
M. D. Tomchenko, “Calculation of the wave functions of the ground and weakly excited states of helium II”, J. Exp. Theor. Phys., 102:1 (2006), 137
Andrij A. Rovenchak, “Energy Spectrum of an Interacting Bose-System”, J Low Temp Phys, 138:1-2 (2005), 49
I. A. Vakarchuk, P. A. Glushak, “Free energy of a many-boson system at low temperatures”, Theoret. and Math. Phys., 75:1 (1988), 399–408
G. O. Balabanyan, “Construction of theory of a binary mixture of nonideal Bose gases (or liquids) by the method of collective variables I. Wave function and ground-state energy, excitation spectrum, correlation functions, thermodynamics of the system at $T=0$ ”, Theoret. and Math. Phys., 66:1 (1986), 81–97
V. A. Onischuk, “Collective variables. Correlation functions on Gaussian functionals”, Theoret. and Math. Phys., 51:3 (1982), 582–593
V.I. Yukalov, “Pair correlations in superfluid helium”, Physics Letters A, 83:1 (1981), 26

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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References:	57
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