Abstract
The electron momentum distribution function in the t-J model is studied in the framework of slave particle approach. Within the decoupling scheme used in the gauge field and related theories, we treated formally phase and amplitude fluctuations as well as constraints without further approximations. Our result indicates that the electron Fermi surface observed in the high-resolution angle-resolved photoemission and inverse photoemission experiments cannot be explained within this framework, and the sum rule for the physical electron is not obeyed. A correct scaling behavior of the electron momentum distribution function near k{approx}k{sub F} and k{approx}3 k{sub F} in one dimension can be reproduced by considering the nonlocal string fields (Z.Y. Weng et al., Phys. Rev. B45, 7850 (1992)), but the overall momentum distribution is still not correct, at least at the mean field level. (author). 39 refs, 3 figs.
Shiping, Feng;
Su, Z B;
Yu, L;
[1]
Wu, J B
[2]
- International Centre for Theoretical Physics, Trieste (Italy)
- Chinese Academy of Sciences, Beijing (China). Inst. of Theoretical Physics
Citation Formats
Shiping, Feng, Su, Z B, Yu, L, and Wu, J B.
Slave particle studies of the electron momentum distribution in the electron momentum distribution in the low dimensional t-J model.
IAEA: N. p.,
1992.
Web.
Shiping, Feng, Su, Z B, Yu, L, & Wu, J B.
Slave particle studies of the electron momentum distribution in the electron momentum distribution in the low dimensional t-J model.
IAEA.
Shiping, Feng, Su, Z B, Yu, L, and Wu, J B.
1992.
"Slave particle studies of the electron momentum distribution in the electron momentum distribution in the low dimensional t-J model."
IAEA.
@misc{etde_10126437,
title = {Slave particle studies of the electron momentum distribution in the electron momentum distribution in the low dimensional t-J model}
author = {Shiping, Feng, Su, Z B, Yu, L, and Wu, J B}
abstractNote = {The electron momentum distribution function in the t-J model is studied in the framework of slave particle approach. Within the decoupling scheme used in the gauge field and related theories, we treated formally phase and amplitude fluctuations as well as constraints without further approximations. Our result indicates that the electron Fermi surface observed in the high-resolution angle-resolved photoemission and inverse photoemission experiments cannot be explained within this framework, and the sum rule for the physical electron is not obeyed. A correct scaling behavior of the electron momentum distribution function near k{approx}k{sub F} and k{approx}3 k{sub F} in one dimension can be reproduced by considering the nonlocal string fields (Z.Y. Weng et al., Phys. Rev. B45, 7850 (1992)), but the overall momentum distribution is still not correct, at least at the mean field level. (author). 39 refs, 3 figs.}
place = {IAEA}
year = {1992}
month = {Nov}
}
title = {Slave particle studies of the electron momentum distribution in the electron momentum distribution in the low dimensional t-J model}
author = {Shiping, Feng, Su, Z B, Yu, L, and Wu, J B}
abstractNote = {The electron momentum distribution function in the t-J model is studied in the framework of slave particle approach. Within the decoupling scheme used in the gauge field and related theories, we treated formally phase and amplitude fluctuations as well as constraints without further approximations. Our result indicates that the electron Fermi surface observed in the high-resolution angle-resolved photoemission and inverse photoemission experiments cannot be explained within this framework, and the sum rule for the physical electron is not obeyed. A correct scaling behavior of the electron momentum distribution function near k{approx}k{sub F} and k{approx}3 k{sub F} in one dimension can be reproduced by considering the nonlocal string fields (Z.Y. Weng et al., Phys. Rev. B45, 7850 (1992)), but the overall momentum distribution is still not correct, at least at the mean field level. (author). 39 refs, 3 figs.}
place = {IAEA}
year = {1992}
month = {Nov}
}