THz-radiation emitter and receiver system based on a 2-T permanent magnet, a 1.04-µm compact fiber laser, and a pyroelectric thermal receiver

Hideyuki OHTAKE; Yuji SUZUKI; Toshimasa KOZEKI; Nobuhiko SARUKURA; Shingo ONO; Takeyo TSUKAMOTO; Akio NAKANISHI; Seiji NISHIZAWA; Michelle L. STOCK; Makoto YOSHIDA; Heirich ENDERT

doi:10.1364/UEO.2001.UThA2

Ultrafast Electronics and Optoelectronics
OSA Trends in Optics and Photonics (Optica Publishing Group, 2001),
paper UThA2
•https://doi.org/10.1364/UEO.2001.UThA2

THz-radiation emitter and receiver system based on a 2-T permanent magnet, a 1.04-µm compact fiber laser, and a pyroelectric thermal receiver

Hideyuki OHTAKE, Yuji SUZUKI, Toshimasa KOZEKI, Nobuhiko SARUKURA, Shingo ONO, Takeyo TSUKAMOTO, Akio NAKANISHI, Seiji NISHIZAWA, Michelle L. STOCK, Makoto YOSHIDA, and Heirich ENDERT

Ultrafast Electronics and Optoelectronics 2001

Lake Tahoe, Nevada United States
ISBN: 1-55752-659-1

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Terahertz Physics and Applications (UThA)

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H. OHTAKE, Y. SUZUKI, T. KOZEKI, N. SARUKURA, S. ONO, T. TSUKAMOTO, A. NAKANISHI, S. NISHIZAWA, M. L. STOCK, M. YOSHIDA, and H. ENDERT, "THz-radiation emitter and receiver system based on a 2-T permanent magnet, a 1.04-µm compact fiber laser, and a pyroelectric thermal receiver," in Ultrafast Electronics and Optoelectronics, A. Sawchuk, ed., Vol. 49 of OSA Trends in Optics and Photonics (Optica Publishing Group, 2001), paper UThA2.

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Abstract

Thermal receiver detectable THz radiation is generated from an InAs irradiated with 1.04-µm, 80-fs, 180-mW fiber laser in a 2-T field by a compact permanent magnet. The THz radiation is monitored by a room-temperature-operating thermal receiver (Deuterated Triglycine Sulfate (DTGS)).

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