Time-Resolved Study of Pseudogap and Superconducting Quasiparticle Dynamics in Ca0.82La0.18Fe1 – xNixAs2.

Authors :: Jiang, Cong-Ying
Song, Hai-Ying
Xie, T.
Liu, C.
Luo, H. Q.
Zhao, S. Z.
Zhang, Xiu
Nie, X. C.
Meng, Jian-Qiao
Duan, Yu-Xia
Liu, H. Y.
Liu, Shi-Bing
Source :: Chinese Physics Letters; Jun2020, Vol. 37 Issue 6, p1-4, 4p
Publication Year :: 2020
Abstract: We use femtosecond time-resolved optical reflectivity to study the photoexcited quasiparticle (QP) dynamics in the iron-based 112 type superconducting (SC) samples Ca<subscript>0.82</subscript>La<subscript>0.18</subscript>Fe<subscript>1 – x</subscript>Ni<subscript>x</subscript>As<subscript>2</subscript>, with x = 0 and 0.024. In the parent sample, a fast and a slow relaxation emerge at temperatures below the magnetic-structure (MS) transition T<subscript>ms</subscript> ≈ 50 K and the SC transition T<subscript>c</subscript> ≈ 33 K, respectively. The latter obviously corresponds to an SC QP dynamics, which is further confirmed in the x = 0.024 sample with T<subscript>c</subscript> ≈ 25 K. The former suggests that a partial of photoexcited QP relaxation through a pesudogap (PG) channel, which is absent in the doped x = 0.024 sample without the MS transition. [ABSTRACT FROM AUTHOR]

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