Article citationsMore>>
Yoshida, T., Ideta, S., Shimojima, T., Malaeb, W., Shinada, K., Suzuki, H., Nishi, I., Fujimori, A., Ishizaka, K., Shin, S., Nakashima, Y., Anzai, H., Arita, M., Ino, A., Namatame, H., Taniguchi, M., Kumigashira, H., Ono, K., Kasahara, S., Shibauchi, T., Terashima, T., Matsuda, Y., Nakajima, M., Uchida, S., Tomioka, Y., Ito, T., Kihou, K., Lee, C.H., Iyo, A., Eisaki, H., Ikeda, H., Arita, R, Saito, T., Onari, S. and Kontani, H. (2014) Anisotropy of the Superconducting Gap in the Iron-Based Superconductor BaFe2(As1?xPx)2. Scientific Report, 4, 7292.
https://doi.org/10.1038/srep07292
has been cited by the following article:
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TITLE:
Electronic Specific Heat of Iron Pnictides Based on Electron-Cooper Pair Interaction
AUTHORS:
Abel Mukubwa
KEYWORDS:
Superconductivity, Iron Pnictides, Specific Heat Capacity
JOURNAL NAME:
Open Access Library Journal,
Vol.5 No.12,
December
28,
2018
ABSTRACT: The discovery of iron pnictides in 2006 added on the number of materials that have the potential to transmit electricity with close zero d.c resistance. High-temperature iron-based superconductors have been obtained through modification, mostly by doping, of the initially low-temperature iron-based superconductors. Unlike in LTSC, the energy gap in HTSC requires a theory, beyond spin fluctuations, to explain its anisotropy. This study seeks to establish a common ground between iron pnictides and cuprates towards explaining high temperature superconductivity. There is a general consensus on the existence of Cooper pairs in these systems. In addition to this, experimental results have revealed the existence of electron-boson coupling in iron pnictides. These results make it viable to study the interaction between an electron and a Cooper pair in iron based superconductors (IBSC). In this study, Bogoliubov-Valatini transformation has been used in determining the electronic specific heat based on the interaction between an electron and a Cooper pair in high-temperature IBSC, namely, Ca0.33Na0.6Fe2As2 and SmFeAsO0.8F0.2. We record the theoretical electronic specific heat of CeFeAsO0.84F0.16 and SmFeAsO0.8F0.2 as 164.3 mJ mol-1 K-2 and 101.6 mJ mol-1 K-2 respectively.
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