Related papers: Saturation of Energy Levels of the Hydrogen Atom in Strong Magnetic Field

Saturation of Energy Levels of the Hydrogen Atom in Strong Magnetic Field

URL: http://arxiv.org/abs/2011.12422v1
Date: Tue, 10 Nov 2020 13:11:18 GMT
Title: Saturation of Energy Levels of the Hydrogen Atom in Strong Magnetic Field
Authors: T. C. Adorno, D. M. Gitman, A. E. Shabad
Abstract summary: We demonstrate that the finiteness of the limiting values of the lower energy levels of a hydrogen atom under an unrestricted growth of the magnetic field is achieved already. We study the effective potential that appears when the adiabatic (diagonal) approximation is exploited for solving the Schr"odinger equation. We find that the (effective) potential of a point-like charge remains nonsingular thanks to the growing screening provided by VP.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We demonstrate that the finiteness of the limiting values of the lower energy levels of a hydrogen atom under an unrestricted growth of the magnetic field, into which this atom is embedded, is achieved already when the vacuum polarization (VP) is calculated in the magnetic field within the approximation of the local action of Euler--Heisenberg. We find that the mechanism for this saturation is different from the one acting, when VP is calculated via the Feynman diagram in the Furry picture. We study the effective potential that appears when the adiabatic (diagonal) approximation is exploited for solving the Schr\"{o}dinger equation for the longitudinal degree of freedom of the electron on the lowest Landau level in the atom. We find that the (effective) potential of a point-like charge remains nonsingular thanks to the growing screening provided by VP. The regularizing length turns out to be $\sqrt{\alpha /3\pi }\lambdabar_{\mathrm{C}}$, where $\lambdabar_{\mathrm{C}}$ is the electron Compton length. The family of effective potentials, labeled by growing values of the magnetic field condenses towards a certain limiting, magnetic-field-independent potential-distance curve. The~limiting values of even ground-state energies are determined for four magnetic quantum numbers using the Karnakov--Popov method.

Related papers

Acceleration and twisting of neutral atoms by strong elliptically polarized short-wavelength laser pulses [0.0]
We have investigated non-dipole effects in the interaction of a hydrogen atom with elliptically polarized laser pulses of intensity 10$14$ W/cm$2$ with about 8 fs duration. The transition from linear to elliptical laser polarization leads to the twisting of the atom relative to the axis directed along the pulse propagation.
arXiv Detail & Related papers (2024-08-16T09:11:34Z)
Quantum electrodynamics of lossy magnetodielectric samples in vacuum: modified Langevin noise formalism [55.2480439325792]
We analytically derive the modified Langevin noise formalism from the established canonical quantization of the electromagnetic field in macroscopic media. We prove that each of the two field parts can be expressed in term of particular bosonic operators, which in turn diagonalize the electromagnetic Hamiltonian.
arXiv Detail & Related papers (2024-04-07T14:37:04Z)
Foldy-Wouthuysen transformation and multiwave states of a graphene electron in external fields and free (2+1)-space [91.3755431537592]
Graphene electrons in a static electric field can exist in the multiwave Hermite-Gauss states defining non-spreading coherent beams. It is proven that the Hermite-Gauss beams exist even in the free space.
arXiv Detail & Related papers (2023-05-07T17:03:00Z)
Adiabatic amplification of energy and magnetic moment of a charged particle after the magnetic field inversion [77.34726150561087]
We study the evolution of the energy and magnetic moment of a quantum charged particle placed in a homogeneous magnetic field. We show that after a single magnetic field passage through zero value, the famous adiabatic invariant ratio of energy to frequency is reestablished again.
arXiv Detail & Related papers (2023-04-10T00:46:15Z)
Quantum mean-field treatment of the dynamics of a two-level atom in a simple cubic lattice [0.0]
Entanglement sudden death and revival is shown to occur close to the critical temperature. The dependence on the change of the temperature and the magnitude of spin is also investigated.
arXiv Detail & Related papers (2022-06-28T17:03:48Z)
New Class of Landau Levels and Hall Phases in a 2D Electron Gas Subject to an Inhomogeneous Magnetic Field: An Analytic Solution [0.0]
Solution provides access to many properties of a two-dimensional, non-interacting, electron gas in the thermodynamic limit. Radially distorted Landau levels can be identified as well as magnetic field induced density and current oscillations close to the magnetic impurity.
arXiv Detail & Related papers (2022-01-13T16:52:02Z)
Band strutures of hybrid graphene quantum dots with magnetic flux [0.0]
We study the band structures of hybrid graphene quantum dots subject to a magnetic flux and electrostatic potential. For the valley $K'$, it is found that the magnetic flux strongly acts by decreasing the gap and shifting energy levels away from zero radius with some oscillations.
arXiv Detail & Related papers (2021-07-30T12:04:13Z)
Motion-induced radiation due to an atom in the presence of a graphene plane [62.997667081978825]
We study the motion-induced radiation due to the non-relativistic motion of an atom in the presence of a static graphene plate. We show that the effect of the plate is to increase the probability of emission when the atom is near the plate and oscillates along a direction perpendicular to it.
arXiv Detail & Related papers (2021-04-15T14:15:23Z)
$\mathcal{P}$,$\mathcal{T}$-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)
Energy Levels of Gapped Graphene Quantum Dot in Magnetic Field [0.0]
We study the energy levels of carriers confined in a magnetic quantum dot of graphene surrounded by a infinite graphene sheet in the presence of energy gap. We numerically investigate our results and show that the energy levels exhibit the symmetric and antisymmetric behaviors under suitable conditions of the physical parameters.
arXiv Detail & Related papers (2020-08-06T15:32:57Z)
Electrically tuned hyperfine spectrum in neutral Tb(II)(Cp$^{\rm{iPr5}}$)$_2$ single-molecule magnet [64.10537606150362]
Both molecular electronic and nuclear spin levels can be used as qubits. In solid state systems with dopants, an electric field was shown to effectively change the spacing between the nuclear spin qubit levels. This hyperfine Stark effect may be useful for applications of molecular nuclear spins for quantum computing.
arXiv Detail & Related papers (2020-07-31T01:48:57Z)

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