Abstract
Vortex imaging method by the site selective NMR is explained by self-consistently solving the Bogoliubov--de Gennes equation for both s-wave and d-wave pairings. We analyze the temperature dependence of the relaxation time T{sub 1} using the resonance frequency at the intensity maximum, namely the saddle point T{sub 1} experiments. The site selective T{sub 1} data are shown to yield valuable information on low-lying electronic excitations around a vortex core. (author)
Machida, K;
Ichioka, M;
Miranovic, P;
Takigawa, M;
Nakai, N
[1]
- Department of Physics, Okayama University, Okayama (Japan)
Citation Formats
Machida, K, Ichioka, M, Miranovic, P, Takigawa, M, and Nakai, N.
Theoretical Studies on Vortices in Unconventional and Conventional Superconductors.
Poland: N. p.,
2003.
Web.
Machida, K, Ichioka, M, Miranovic, P, Takigawa, M, & Nakai, N.
Theoretical Studies on Vortices in Unconventional and Conventional Superconductors.
Poland.
Machida, K, Ichioka, M, Miranovic, P, Takigawa, M, and Nakai, N.
2003.
"Theoretical Studies on Vortices in Unconventional and Conventional Superconductors."
Poland.
@misc{etde_20401189,
title = {Theoretical Studies on Vortices in Unconventional and Conventional Superconductors}
author = {Machida, K, Ichioka, M, Miranovic, P, Takigawa, M, and Nakai, N}
abstractNote = {Vortex imaging method by the site selective NMR is explained by self-consistently solving the Bogoliubov--de Gennes equation for both s-wave and d-wave pairings. We analyze the temperature dependence of the relaxation time T{sub 1} using the resonance frequency at the intensity maximum, namely the saddle point T{sub 1} experiments. The site selective T{sub 1} data are shown to yield valuable information on low-lying electronic excitations around a vortex core. (author)}
journal = []
issue = {2,Part one}
volume = {B34}
journal type = {AC}
place = {Poland}
year = {2003}
month = {Feb}
}
title = {Theoretical Studies on Vortices in Unconventional and Conventional Superconductors}
author = {Machida, K, Ichioka, M, Miranovic, P, Takigawa, M, and Nakai, N}
abstractNote = {Vortex imaging method by the site selective NMR is explained by self-consistently solving the Bogoliubov--de Gennes equation for both s-wave and d-wave pairings. We analyze the temperature dependence of the relaxation time T{sub 1} using the resonance frequency at the intensity maximum, namely the saddle point T{sub 1} experiments. The site selective T{sub 1} data are shown to yield valuable information on low-lying electronic excitations around a vortex core. (author)}
journal = []
issue = {2,Part one}
volume = {B34}
journal type = {AC}
place = {Poland}
year = {2003}
month = {Feb}
}