Far-infrared magnetotransmission of YBa2(ZnxCu(1-x))3O(7-d)

J. Kolacek; R. Tesar; Z. Simsa

arXiv:cond-mat/9911279·cond-mat.supr-con·October 31, 2009

Far-infrared magnetotransmission of YBa2(ZnxCu(1-x))3O(7-d)

J. Kolacek, R. Tesar, Z. Simsa

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TL;DR

This study investigates the far-infrared magnetotransmission of a YBa2(ZnxCu(1-x))3O(7-d) thin film, revealing a linear increase in transmission under magnetic fields and proposing a vortex dynamics model to explain the observations.

Contribution

It introduces a model of high frequency vortex dynamics to explain magnetotransmission behavior in YBa2(ZnxCu(1-x))3O(7-d) thin films.

Findings

01

Linear increase in transmission below 30 cm-1 with magnetic field

02

Model qualitatively explains vortex dynamics effects

03

Results suggest magnetic field influences high-frequency vortex behavior

Abstract

Measurements of the far infrared magnetotransmission of YBa2(ZnxCu(1-x))3O(7-d) thin film (x = 0.025) deposited on a wedged MgO substrate are reported. The application of magnetic field perpendicular to the ab plane produces at low temperature a linear increase of transmission for frequencies below 30 cm-1. We present a model of high frequency vortex dynamics which qualitatively explains these results.

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