Fast detector of the ellipticity of infrared and terahertz radiation
  based on HgTe quantum well structures

A. F. G. van der Meer; Asnin V. M.; Asnin V. M.; B. Murdin; B. Wittmann; Born M.; E. V. Beregulin; Edwards T.; Ganichev S. D.; Ivchenko E. L.; Ivchenko E. L.; Ivchenko E. L.; L. E. Golub; N. N. Mikhailov; N. Q. Vinh; P. Olbrich; S. A. Dvoretsky; S. D. Ganichev; S. N. Danilov; V. A. Shalygin; W. Eder; W. Prettl; Woolard D. L.; Z. D. Kvon

research

Fast detector of the ellipticity of infrared and terahertz radiation based on HgTe quantum well structures

Authors: A. F. G. van der Meer
Asnin V. M.
Asnin V. M.
B. Murdin
B. Wittmann
Born M.
E. V. Beregulin
Edwards T.
Ganichev S. D.
Ivchenko E. L.
Ivchenko E. L.
Ivchenko E. L.
L. E. Golub
N. N. Mikhailov
N. Q. Vinh
P. Olbrich
S. A. Dvoretsky
S. D. Ganichev
S. N. Danilov
V. A. Shalygin
W. Eder
W. Prettl
Woolard D. L.
Z. D. Kvon
Publication date: 7 October 2008
Publisher: 'AIP Publishing'
Doi

Abstract

We report a fast, room temperature detection scheme for the polarization ellipticity of laser radiation, with a bandwidth that stretches from the infrared to the terahertz range. The device consists of two elements, one in front of the other, that detect the polarization ellipticity and the azimuthal angle of the ellipse. The elements respectively utilise the circular photogalvanic effect in a narrow gap semiconductor and the linear photogalvanic effect in a bulk piezoelectric semiconductor. For the former we characterized both a HgTe quantum well and bulk Te, and for the latter, bulk GaAs. In contrast with optical methods our device is an easy to handle all-electric approach, which we demonstrated by applying a large number of different lasers from low power, continuous wave systems to high power, pulsed sources.Comment: 7 pages, 5 figure