Abstract
A first step towards consistent understanding of various properties of interstitial hydrogen in b.c.c. metals has been made by solving a Schroedinger equation for hydrogen atoms in the field of interaction with surrounding metal atoms. Properties investigated include the nature of self-trapped states, the relative stability of self-trapped configurations, the average stress field (P-tensor), the excitation energy to be determined by neutron spectroscopy, etc. Calculations were performed on hydrogen isotopes (H, D, T) in group-V metals (V, Nb, Ta), and good agreement was obtained with many different kinds of observations. Some predictions and tentative explanations are also presented.
Citation Formats
Fukai, Y, and Sugimoto, H.
Quantum-mechanical approach to the state of hydrogen in b. c. c. metals.
Japan: N. p.,
1980.
Web.
Fukai, Y, & Sugimoto, H.
Quantum-mechanical approach to the state of hydrogen in b. c. c. metals.
Japan.
Fukai, Y, and Sugimoto, H.
1980.
"Quantum-mechanical approach to the state of hydrogen in b. c. c. metals."
Japan.
@misc{etde_6168857,
title = {Quantum-mechanical approach to the state of hydrogen in b. c. c. metals}
author = {Fukai, Y, and Sugimoto, H}
abstractNote = {A first step towards consistent understanding of various properties of interstitial hydrogen in b.c.c. metals has been made by solving a Schroedinger equation for hydrogen atoms in the field of interaction with surrounding metal atoms. Properties investigated include the nature of self-trapped states, the relative stability of self-trapped configurations, the average stress field (P-tensor), the excitation energy to be determined by neutron spectroscopy, etc. Calculations were performed on hydrogen isotopes (H, D, T) in group-V metals (V, Nb, Ta), and good agreement was obtained with many different kinds of observations. Some predictions and tentative explanations are also presented.}
journal = []
volume = {21}
place = {Japan}
year = {1980}
month = {Jan}
}
title = {Quantum-mechanical approach to the state of hydrogen in b. c. c. metals}
author = {Fukai, Y, and Sugimoto, H}
abstractNote = {A first step towards consistent understanding of various properties of interstitial hydrogen in b.c.c. metals has been made by solving a Schroedinger equation for hydrogen atoms in the field of interaction with surrounding metal atoms. Properties investigated include the nature of self-trapped states, the relative stability of self-trapped configurations, the average stress field (P-tensor), the excitation energy to be determined by neutron spectroscopy, etc. Calculations were performed on hydrogen isotopes (H, D, T) in group-V metals (V, Nb, Ta), and good agreement was obtained with many different kinds of observations. Some predictions and tentative explanations are also presented.}
journal = []
volume = {21}
place = {Japan}
year = {1980}
month = {Jan}
}