Related papers: Confined H$^-$ ion within a density functional framework

Confined H$^-$ ion within a density functional framework

URL: http://arxiv.org/abs/2205.10314v1
Date: Thu, 19 May 2022 16:40:26 GMT
Title: Confined H$^-$ ion within a density functional framework
Authors: Sangita Majumdar, Neetik Mukherjee and Amlan K. Roy
Abstract summary: Ground and excited states of a confined negative Hydrogen ion have been pursued under Kohn-Sham density functional approach. The influence of electron correlation is more predominant in the weaker confinement limit and it decays with an increase in confinement strength.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Ground and excited states of a confined negative Hydrogen ion has been pursued under Kohn-Sham density functional approach by invoking a physically motivated work-function-based exchange potential. The exchange-only results are of near Hartree-Fock quality. Local parameterised Wigner-type, and gradient- and Laplacian-dependent non-local Lee-Yang-Parr functionals are chosen to investigate the electron correlation effects. Eigenfunctions and eigenvalues are extracted by using a generalized pseudospectral method obeying Dirichlet boundary condition. Energy values are reported for 1s$^{2}$ ($^{1}$S), 1s2s ($^{3,1}$S) and 1s2p ($^{3,1}$P) states. Performance of the correlation functionals in the context of confinement is examined critically. The present results are in excellent agreement with available literature. Additionally, Shannon entropy and Onicescu energy are offered for ground and low lying singly excited 1s2s ($^{3}$S) and 1s2p ($^{3}$P) states. The influence of electron correlation is more predominant in the weaker confinement limit and it decays with an increase in confinement strength. In essence, energy and some information measures are estimated using a newly formulated density functional strategy.

Related papers

Electron correlation effects and spin-liquid state in the Herbertsmithite Kagome lattice [0.0]
We employ real-space variational quantum Monte Carlo methods to investigate electron correlation effects in the Kagome system. Our results show that the correlation energy increases with the concentration of $Zn_x$. The emergence of a quantum spin liquid state driven by a long-range correlation energy is discussed.
arXiv Detail & Related papers (2024-11-06T12:37:24Z)
Spin migration in density functional theory: energy, potential and density perspectives [0.0]
We study the behavior of the energy, Kohn-Sham orbitals, the KS potentials and the electron density, with respect to fractional spin, in different atomic systems. Our results are instrumental for the assessment of the quality of existing approximations from a new perspective.
arXiv Detail & Related papers (2024-11-03T12:49:35Z)
Full counting statistics of interacting lattice gases after an expansion: The role of the condensate depletion in the many-body coherence [55.41644538483948]
We study the full counting statistics (FCS) of quantum gases in samples of thousands of interacting bosons. FCS reveals the many-body coherence from which we characterize iconic states of interacting lattice bosons.
arXiv Detail & Related papers (2022-07-28T13:21:57Z)
Density functional study of atoms spatially confined inside a hard sphere [0.0]
atom placed inside a cavity of finite dimension offers many interesting features, and thus has been a topic of great current activity. This work proposes a density functional approach to pursue both ground and excited states of a multi-electron atom under a spherically impenetrable enclosure.
arXiv Detail & Related papers (2022-05-19T14:22:55Z)
In-Gap Band Formation in a Periodically Driven Charge Density Wave Insulator [68.8204255655161]
Periodically driven quantum many-body systems host unconventional behavior not realized at equilibrium. We investigate such a setup for strongly interacting spinless fermions on a chain, which at zero temperature and strong interactions form a charge density wave insulator.
arXiv Detail & Related papers (2022-05-19T13:28:47Z)
Mechanism for particle fractionalization and universal edge physics in quantum Hall fluids [58.720142291102135]
We advance a second-quantization framework that helps reveal an exact fusion mechanism for particle fractionalization in FQH fluids. We also uncover the fundamental structure behind the condensation of non-local operators characterizing topological order in the lowest-Landau-level (LLL)
arXiv Detail & Related papers (2021-10-12T18:00:00Z)
Rovibrational structure of the Ytterbium monohydroxide molecule and the $\mathcal{P}$,$\mathcal{T}$-violation searches [68.8204255655161]
The energy gap between levels of opposite parity, $l$-doubling, is of a great interest. The influence of the bending and stretching modes on the sensitivities to the $mathcalP$,$mathcalT$-violation requires a thorough investigation.
arXiv Detail & Related papers (2021-08-25T20:12:31Z)
Shannon entropy in confined He-like ions within a density functional formalism [0.0]
Shannon entropy in position ($S_rvec$) and momentum ($S_pvec$) spaces, along with their sum ($S_t$) are presented. The radial Kohn-Sham equation is solved using an optimal spatial discretization scheme via the generalized pseudospectral (GPS) method.
arXiv Detail & Related papers (2021-02-26T16:29:07Z)
$\mathcal{P}$,$\mathcal{T}$-odd effects for RaOH molecule in the excited vibrational state [77.34726150561087]
Triatomic molecule RaOH combines the advantages of laser-coolability and the spectrum with close opposite-parity doublets. We obtain the rovibrational wave functions of RaOH in the ground electronic state and excited vibrational state using the close-coupled equations derived from the adiabatic Hamiltonian.
arXiv Detail & Related papers (2020-12-15T17:08:33Z)
Too big, too small or just right? A benchmark assessment of density functional theory for predicting the spatial extent of the electron density of small chemical systems [0.0]
A benchmark dataset of the prinicpal components of $mathcalK$ for 100 small molecules is developed. The performance of 47 popular and recent density functionals is assessed against this dataset.
arXiv Detail & Related papers (2020-11-25T08:00:31Z)
Anisotropy-mediated reentrant localization [62.997667081978825]
We consider a 2d dipolar system, $d=2$, with the generalized dipole-dipole interaction $sim r-a$, and the power $a$ controlled experimentally in trapped-ion or Rydberg-atom systems. We show that the spatially homogeneous tilt $beta$ of the dipoles giving rise to the anisotropic dipole exchange leads to the non-trivial reentrant localization beyond the locator expansion.
arXiv Detail & Related papers (2020-01-31T19:00:01Z)

This list is automatically generated from the titles and abstracts of the papers in this site.