Abstract
Ionization process in highly excited hydrogen atom in electromagnetic field is presented in the form of an extraordinary photoeffect, in which ionization at the frequency, being much lower than ionization energy, occurs much quicker than single-photon one. Such a quick ionization is explained by dynamic chaos occurence. Question, related to quantum effect influence on chaotic movement of the electron (quantum chaos) is considered. Electron excitation in the chaos area is described by a diffusional equation.
Citation Formats
Shepelyanskij, D L.
Quantum chaos: diffusion photoeffect in hydrogen.
USSR: N. p.,
1987.
Web.
Shepelyanskij, D L.
Quantum chaos: diffusion photoeffect in hydrogen.
USSR.
Shepelyanskij, D L.
1987.
"Quantum chaos: diffusion photoeffect in hydrogen."
USSR.
@misc{etde_5344122,
title = {Quantum chaos: diffusion photoeffect in hydrogen}
author = {Shepelyanskij, D L}
abstractNote = {Ionization process in highly excited hydrogen atom in electromagnetic field is presented in the form of an extraordinary photoeffect, in which ionization at the frequency, being much lower than ionization energy, occurs much quicker than single-photon one. Such a quick ionization is explained by dynamic chaos occurence. Question, related to quantum effect influence on chaotic movement of the electron (quantum chaos) is considered. Electron excitation in the chaos area is described by a diffusional equation.}
journal = []
volume = {152:1}
journal type = {AC}
place = {USSR}
year = {1987}
month = {May}
}
title = {Quantum chaos: diffusion photoeffect in hydrogen}
author = {Shepelyanskij, D L}
abstractNote = {Ionization process in highly excited hydrogen atom in electromagnetic field is presented in the form of an extraordinary photoeffect, in which ionization at the frequency, being much lower than ionization energy, occurs much quicker than single-photon one. Such a quick ionization is explained by dynamic chaos occurence. Question, related to quantum effect influence on chaotic movement of the electron (quantum chaos) is considered. Electron excitation in the chaos area is described by a diffusional equation.}
journal = []
volume = {152:1}
journal type = {AC}
place = {USSR}
year = {1987}
month = {May}
}