Journal ArticleDOI
Exact analysis of an interacting bose gas. i. the general solution and the ground state
Elliott H. Lieb,Werner Liniger +1 more
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In this paper, the ground-state energy as a function of γ was derived for all γ, except γ = 0, and it was shown that Bogoliubov's perturbation theory is valid when γ is small.Abstract:
A gas of one-dimensional Bose particles interacting via a repulsive delta-function potential has been solved exactly. All the eigenfunctions can be found explicitly and the energies are given by the solutions of a transcendental equation. The problem has one nontrivial coupling constant, γ. When γ is small, Bogoliubov’s perturbation theory is seen to be valid. In this paper, we explicitly calculate the ground-state energy as a function of γ and show that it is analytic for all γ, except γ=0. In Part II, we discuss the excitation spectrum and show that it is most convenient to regard it as a double spectrum—not one as is ordinarily supposed.read more
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Zero-point energy of ultracold atoms
Luca Salasnich,Flavio Toigo +1 more
TL;DR: In this paper, the divergent zero-point energy of a dilute and ultracold gas of atoms in D spatial dimensions was analyzed and three different regularization approaches were proposed: dimensional regularization, momentum cutoff regularization and convergence factor regularization.
Journal ArticleDOI
Quantum magnetism in strongly interacting one-dimensional spinor Bose systems
A. S. Dehkharghani,Artem G. Volosniev,Jonathan Lindgren,Jimmy Rotureau,Christian Forssén,Christian Forssén,Christian Forssén,D. V. Fedorov,Aksel Karl Georg Jensen,Nikolaj Thomas Zinner +9 more
TL;DR: These systems have energies that are fractions of the basic harmonic oscillator trap quantum and have spatially separated ground states with manifestly ferromagnetic wave functions and are predicted to have perfect antiferromagnetic ordering.
Journal ArticleDOI
Simulating Quantum Fields with Cavity QED
TL;DR: This work reports on a variational method exploiting the natural physics of cavity QED architectures to simulate strongly interacting quantum fields, broadly applicable to any architecture involving tunable and strongly nonlinear interactions with light.
Journal ArticleDOI
Correlation functions of one-dimensional Lieb–Liniger anyons
TL;DR: In this article, the properties of a model of 1D anyons interacting through a δ-function repulsive potential were investigated, and the structure of the quasi-periodic boundary conditions for the anyonic field operators and the many-anyon wavefunctions was clarified.
Journal ArticleDOI
Symmetries of three harmonically trapped particles in one dimension
TL;DR: In this article, a method for solving few-body problems for trapped particles was presented, and applied to three equal-mass particles in a one-dimensional harmonic trap, interacting via a contact potential.
References
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Book
A Course of Modern Analysis
TL;DR: The volume now gives a somewhat exhaustive account of the various ramifications of the subject, which are set out in an attractive manner and should become indispensable, not only as a textbook for advanced students, but as a work of reference to those whose aim is to extend the knowledge of analysis.
Journal ArticleDOI
Relationship between Systems of Impenetrable Bosons and Fermions in One Dimension
TL;DR: In this article, a rigorous one-one correspondence between one-dimensional systems of bosons and spinless fermions is established, subject only to the restriction that the interaction has an impenetrable core.
Journal ArticleDOI
Exact Analysis of an Interacting Bose Gas. II. The Excitation Spectrum
TL;DR: In this paper, the analysis of the one-dimensional gas of Bose particles interacting via a repulsive delta function potential by considering the excitation spectrum was carried out and it was shown that the elementary excitations are most naturally thought of as a double spectrum, not a single one.
Journal ArticleDOI
Linear antiferromagnetic chain with anisotropic coupling
TL;DR: In this article, the exact solution for a linear chain of spin atoms coupled together by the anisotropic Hamiltonian was given for the antiferromagnetic ground state and comparison was made with a variational method.
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