Jun Hao Hue scite author profile

Jun Hao Hue

3Publications

32Citation Statements Received

96Citation Statements Given

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Affiliations

National University of Singapore, Centre for Quantum Technologies

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Systematic corrections to the Thomas–Fermi approximation without a gradient expansion

et al. 2018

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We improve on the Thomas-Fermi approximation for the single-particle density of fermions by introducing inhomogeneity corrections. Rather than invoking a gradient expansion, we relate the density to the unitary evolution operator for the given effective potential energy and approximate this operator by a Suzuki-Trotter factorization. This yields a hierarchy of approximations, one for each approximate factorization. For the purpose of a first benchmarking, we examine the approximate densities for a few cases with known exact densities and observe a very satisfactory, and encouraging, performance. As a bonus, we also obtain a simple fourth-order leapfrog algorithm for the symplectic integration of classical equations of motion.

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Contactium: A strongly correlated model system

Ciosłowski

Englert

Trappe

et al. 2023

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At the limit of an infinite confinement strength ω, the ground state of a system that comprises two fermions or bosons in harmonic confinement interacting through the Fermi–Huang pseudopotential remains strongly correlated. A detailed analysis of the one-particle description of this “contactium” reveals several peculiarities that are not encountered in conventional model systems (such as the two-electron harmonium atom, ballium, and spherium) involving Coulombic interparticle interactions. First of all, none of the natural orbitals (NOs) {ψn(ω;r)} of the contactium is unoccupied, which implies nonzero collective occupancies for all the angular momenta. Second, the NOs and their non-ascendingly ordered occupation numbers {νn} turn out to be related to the eigenfunctions and eigenvalues of a zero-energy Schrödinger equation with an attractive Gaussian potential. This observation enables the derivation of their properties, such as the n−4/3 asymptotic decay of νn at the n→∞ limit (which differs from that of n−8/3 in the Coulombic systems), the independence of the confinement energy vn=⟨ψn(ω;r)|12ω2r2|ψn(ω;r)⟩ of n, and the n−2/3 asymptotic decay of the respective contribution νntn to the kinetic energy. Upon suitable scaling, the weakly occupied NOs of the contactium turn out to be virtually identical to those of the two-electron harmonium atom at the ω → ∞ limit, despite the entirely different interparticle interactions in these systems.

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Energy Functionals of Single-Particle Densities: A Unified View

Englert

Hue

Huang

et al. 2023

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Jun Hao Hue

Systematic corrections to the Thomas–Fermi approximation without a gradient expansion

Contactium: A strongly correlated model system

Energy Functionals of Single-Particle Densities: A Unified View

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