Microfabricated THz sheet beam vacuum electron devices

The current status of THz sheet beam coherent source development is presented, including theoretical, numerical, and experimental investigation of the operational characteristics/performance, device component design, and emission/ life-time test results of synthesized nanocomposite cathodes. Advance...

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Hauptverfasser:	Young-Min Shin, Jinfeng Zhao, Gamzina, D., Baig, A., Barchfield, R., Spear, A., Jian-Xun Wang, Domier, C. W., Barnett, L. R., Luhmann, Neville C.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bandwidth Cathodes Current density Klystrons Plasmas Predictive models Time frequency analysis
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creator	Young-Min Shin Jinfeng Zhao Gamzina, D. Baig, A. Barchfield, R. Spear, A. Jian-Xun Wang Domier, C. W. Barnett, L. R. Luhmann, Neville C.
description	The current status of THz sheet beam coherent source development is presented, including theoretical, numerical, and experimental investigation of the operational characteristics/performance, device component design, and emission/ life-time test results of synthesized nanocomposite cathodes. Advanced MEMS techniques using UV lithographic molding and ultra-precision CNC machining to realize the devices in the submillimeter wave regime are also discussed.
doi_str_mv	10.1109/irmmw-THz.2011.6105031
format	Conference Proceeding
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issn	2162-2027
language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Bandwidth Cathodes Current density Klystrons Plasmas Predictive models Time frequency analysis
title	Microfabricated THz sheet beam vacuum electron devices
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