Optimum excitation conditions for the generation of high-electric-field terahertz radiation from an oscillator-driven photoconductive device
Optimum excitation conditions for the generation of high-electric-field terahertz radiation from an oscillator-driven photoconductive device
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2006
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Optics Letters ; 31 (2006), 10. - pp. 1546-1548
Abstract
We report the impulsive generation of terahertz (THz) radiation with a field amplitude of more than 1.5 kV/cm at megahertz repetition rates, using an interdigitated photoconducting device. The approach provides an average THz power of 190 μW, corresponding to an optical-to-THz conversion efficiency of 2.5×10−4. Optimum conditions are achieved when the excitation spot size is of the order of the THz wavelength.
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DREYHAUPT, Andre, Stephan WINNERL, Manfred HELM, Thomas DEKORSY, 2006. Optimum excitation conditions for the generation of high-electric-field terahertz radiation from an oscillator-driven photoconductive device. In: Optics Letters. 31(10), pp. 1546-1548. Available under: doi: 10.1364/OL.31.001546BibTex
@article{Dreyhaupt2006Optim-8883,
year={2006},
doi={10.1364/OL.31.001546},
title={Optimum excitation conditions for the generation of high-electric-field terahertz radiation from an oscillator-driven photoconductive device},
number={10},
volume={31},
journal={Optics Letters},
pages={1546--1548},
author={Dreyhaupt, Andre and Winnerl, Stephan and Helm, Manfred and Dekorsy, Thomas}
}
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