Kinetic Inductance and Penetration Depth of Thin Superconducting Films
  Measured by THz Pulse Spectroscopy

A. C. Campbell; A. M. Neminsky; A. P. Litvinchuk; B. Mühlschlegel; C. J. Gorter; D. A. Bonn; D. E. Aspnes; D. Grischkowsky; H. U. Habermeier; H.-U. Habermeier; I. E. Trofimov; J. Annett; J. Halbritter; J. Kuhl; J. Lee; J. O. White; J. R. Schrieffer; M. C. Nuss; M. R. Beasley; M. Y. Frankel; N. Klein; P. Arberg; R. Buhleier; S. D. Brorson; S. M. Anlage; W. N. Hardy; Z. Ma

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Kinetic Inductance and Penetration Depth of Thin Superconducting Films Measured by THz Pulse Spectroscopy

Authors: A. C. Campbell
A. M. Neminsky
A. P. Litvinchuk
B. Mühlschlegel
C. J. Gorter
D. A. Bonn
D. E. Aspnes
D. Grischkowsky
H. U. Habermeier
H.-U. Habermeier
I. E. Trofimov
J. Annett
J. Halbritter
J. Kuhl
J. Lee
J. O. White
J. R. Schrieffer
M. C. Nuss
M. R. Beasley
M. Y. Frankel
N. Klein
P. Arberg
R. Buhleier
S. D. Brorson
S. M. Anlage
W. N. Hardy
Z. Ma
Publication date: 1 January 1993
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We measure the transmission of THz pulses through thin films of YBCO at temperatures between 10K and 300K. The pulses possess a useable bandwidth extending from 0.1 -- 1.5 THz (3.3 cm^-1 -- 50 cm^-1). Below T_c we observe pulse reshaping caused by the kinetic inductance of the superconducting charge carriers. From transmission data, we extract values of the London penetration depth as a function of temperature, and find that it agrees well with a functional form (\lambda(0)/\lambda(T))^2 = 1 - (T/T_c)^{\alpha}, where \lambda(0) = 148 nm, and \alpha = 2. *****Figures available upon request*****Comment: 7 Pages, LaTe

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