A review of effects due to the confinement and compression of atoms is presented. It is argued that they provide new insights into the properties of atoms and, in particular, into their interactions with the microscopic environment. Studies of confined atoms allow one to understand better the changes of behaviour which occur under pressure. Some applications to practical situations are also suggested
Alternate contraction and drastic expansion, i.e., \u27breathing\u27 of electronic subshells, the ef...
Confinement causes drastic changes in bonding, reactivity and dynamics. Alkali metal atoms are excel...
Progress in high pressure physics is reviewed with special emphasis on recent developments in experi...
The electronegativity concept was first formulated by Pauling in the first half of the 20th century ...
We use classical statistical mechanics and thermodynamics to describe the response of a trapped mult...
We use classical statistical mechanics and thermodynamics to describe the response of a trapped mult...
Phenomenological approaches on the basis of simple model potentials for the description of various s...
The energy spectra of ground-state, ionized and excited multielectron atoms and ions of the 3d and 4...
We present a quantum mechanical model capable of describing isotropic compression of single atoms in...
Atoms under pressure undergo a number of modifications of their electronic structure. Good examples ...
Abstract: We present quantum mechanical estimates for non-bonded, van der Waals-like, radii of 93 at...
A quantum chemical model for the study of the electronic structure of compressed atoms lends itself ...
We present quantum mechanical estimates for non-bonded, van der Waals-like, radii of 93 atoms in a p...
We show that the pressure acting on atoms and molecular systems within the compression cavity of the...
We show that the pressure acting on atoms and molecular systems within the compression cavity of the...
Alternate contraction and drastic expansion, i.e., \u27breathing\u27 of electronic subshells, the ef...
Confinement causes drastic changes in bonding, reactivity and dynamics. Alkali metal atoms are excel...
Progress in high pressure physics is reviewed with special emphasis on recent developments in experi...
The electronegativity concept was first formulated by Pauling in the first half of the 20th century ...
We use classical statistical mechanics and thermodynamics to describe the response of a trapped mult...
We use classical statistical mechanics and thermodynamics to describe the response of a trapped mult...
Phenomenological approaches on the basis of simple model potentials for the description of various s...
The energy spectra of ground-state, ionized and excited multielectron atoms and ions of the 3d and 4...
We present a quantum mechanical model capable of describing isotropic compression of single atoms in...
Atoms under pressure undergo a number of modifications of their electronic structure. Good examples ...
Abstract: We present quantum mechanical estimates for non-bonded, van der Waals-like, radii of 93 at...
A quantum chemical model for the study of the electronic structure of compressed atoms lends itself ...
We present quantum mechanical estimates for non-bonded, van der Waals-like, radii of 93 atoms in a p...
We show that the pressure acting on atoms and molecular systems within the compression cavity of the...
We show that the pressure acting on atoms and molecular systems within the compression cavity of the...
Alternate contraction and drastic expansion, i.e., \u27breathing\u27 of electronic subshells, the ef...
Confinement causes drastic changes in bonding, reactivity and dynamics. Alkali metal atoms are excel...
Progress in high pressure physics is reviewed with special emphasis on recent developments in experi...
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