Add to ORKGWe study the hydrogen atom confined to a spherical box with impenetrable walls but, unlike earlier pedagogical articles on the subject, we assume that the nucleus also moves. We obtain the ground-state energy approximately by means of first-order perturbation theory and show that it is greater than that for the case in which the nucleus is clamped at the centre of the box. The present approach is valid for strong confinement and resembles the well-known treatment of the helium atom with clamped nucleus.Facultad de Ciencias ExactasInstituto de Investigaciones Fisicoquímicas Teóricas y Aplicada
A model for describing the ground and excited states of a hydrogen atom (or amolecule) confined to a...
Hydrogen is the lightest of gases and possesses the lowest density. However at ambient temperature a...
Texto completo: acesso restrito. p. 2811-2825The hydrogen atom confined by an infinite spherical pot...
We discuss the application of perturbation theory to a system of particles confined in a spherical b...
We studied the hydrogen atom as a system of two quantum particles in different confinement condition...
The exact solution to the problem of a hydrogen atom confined in a spherical well (CHA) is discussed...
The problem of the stability of the hydrogen atom when it is released from a confining environment i...
Abstract: Variational perturbation theory was used to solve the Schrödinger equation for a hydrogen ...
The stability of a spherically confined atomic system when confinement is removed is studied. We con...
A muonic hydrogen-like atom is formed when replacing the electron in it by a negative muon $$\mu ^-$...
In this thesis, we investigate physical properties of various atomic systems such as hydrogen, heli...
The problem of a particle confined in a spherical cavity is studied with the Dirac equation. A hard ...
It is shown that the energy of a hydrogen-like atom confined inside a spherical cavity of radius, R,...
In this paper we have examined the ionization of the ground state hydrogen atom in a spherical box w...
In this paper we have examined the ionization of the ground state hydrogen atom in a spherical box w...
A model for describing the ground and excited states of a hydrogen atom (or amolecule) confined to a...
Hydrogen is the lightest of gases and possesses the lowest density. However at ambient temperature a...
Texto completo: acesso restrito. p. 2811-2825The hydrogen atom confined by an infinite spherical pot...
We discuss the application of perturbation theory to a system of particles confined in a spherical b...
We studied the hydrogen atom as a system of two quantum particles in different confinement condition...
The exact solution to the problem of a hydrogen atom confined in a spherical well (CHA) is discussed...
The problem of the stability of the hydrogen atom when it is released from a confining environment i...
Abstract: Variational perturbation theory was used to solve the Schrödinger equation for a hydrogen ...
The stability of a spherically confined atomic system when confinement is removed is studied. We con...
A muonic hydrogen-like atom is formed when replacing the electron in it by a negative muon $$\mu ^-$...
In this thesis, we investigate physical properties of various atomic systems such as hydrogen, heli...
The problem of a particle confined in a spherical cavity is studied with the Dirac equation. A hard ...
It is shown that the energy of a hydrogen-like atom confined inside a spherical cavity of radius, R,...
In this paper we have examined the ionization of the ground state hydrogen atom in a spherical box w...
In this paper we have examined the ionization of the ground state hydrogen atom in a spherical box w...
A model for describing the ground and excited states of a hydrogen atom (or amolecule) confined to a...
Hydrogen is the lightest of gases and possesses the lowest density. However at ambient temperature a...
Texto completo: acesso restrito. p. 2811-2825The hydrogen atom confined by an infinite spherical pot...