2012
DOI: 10.1007/s10762-011-9862-x
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Development and Applications of High—Frequency Gyrotrons in FIR FU Covering the sub-THz to THz Range

Abstract: Powerful sources of coherent radiation in the sub-terahertz and in the terahertz frequency range of the electromagnetic spectrum are necessary for a great and continuously expanding number of applications in the physical research and in various advanced technological processes as well as in radars, communication systems, for remote sensing and inspection etc.. In recent years, a spectacular progress in the development of various gyrodevices and in particular of the powerful high frequency (sub-terahertz and te… Show more

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Cited by 74 publications
(19 citation statements)
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“…A popular approach is to use continuous-wave gyrotron microwave sources, capable of producing many watts at frequencies above 200 GHz [1518], and to operate at sample temperatures in the 80–100 K range [19, 20]. In these studies, samples are typically doped with nitroxide-based biradical dopants in frozen solutions [21, 22], although other dopants have also been described [2325].…”
Section: Introductionmentioning
confidence: 99%
“…A popular approach is to use continuous-wave gyrotron microwave sources, capable of producing many watts at frequencies above 200 GHz [1518], and to operate at sample temperatures in the 80–100 K range [19, 20]. In these studies, samples are typically doped with nitroxide-based biradical dopants in frozen solutions [21, 22], although other dopants have also been described [2325].…”
Section: Introductionmentioning
confidence: 99%
“…7 Signal intensity and frequency measurements on Gyrotron FU CW GV with single-disk window, the upper and lower letters indicate the identified modes and the measured frequencies (in GHz), respectively thus be significantly improved by setting appropriate disk distances for the doubledisk window. For the TE 7,4 and TE 6,4 modes which oscillate at B of less than 6.8 T, the operating conditions were optimized, and the output signals were observed with small body currents. We thus confirmed the oscillations of all the expected modes in Table 1.…”
Section: Resultsmentioning
confidence: 99%
“…At the Research Center for Development of Far-Infrared Region, University of Fukui, Japan (FIR UF), a number of high-frequency gyrotrons operating at frequencies in ranges from subTHz to THz, including those of the Gyrotron FU-series, the Gyrotron FU CW-series, and the Gyrotron FU CW G-series, have been developed [1][2][3][4][5][6][7][8][9]. The gyrotrons of the FU CW G-series are equipped with an internal mode converter that converts the electromagnetic (EM) wave that is oscillating in the cavity into a Gaussian beam.…”
Section: Introductionmentioning
confidence: 99%
“…ÂËÃÑÎÇÇ ÓÇÅÖÎâÓÐÑ Ä ÐÂÔÕÑâÜÇÇ ÄÓÇÏâ ÕÂÍËÇ ÓÂÃÑÕÞ ÄÇAEÖÕÔâ Ä ÔÎÇAEÖáÜËØ ÑÓÅÂÐËÊÂÙËâØ: ËÔÔÎÇAEÑÄÂÕÇÎßÔÍÑÏ ÙÇÐÕÓÇ ÒÑ ËÊÖÚÇÐËá AEÂÎßÐÇÅÑ ËÐ×ÓÂÍÓÂÔÐÑÅÑ AEËÂÒÂÊÑР(FIR FU) ( ¶ÖÍÖË, ÁÒÑÐËâ) [30,31], ®ÂÔÔÂÚÖÔÇÕÔÔÍÑÏ ÕÇØÐÑÎÑÅËÚÇÔÍÑÏ ËÐÔÕËÕÖÕÇ (MIT) (³º¡) [32,33], µÐË-ÄÇÓÔËÕÇÕÇ ®àÓËÎÇÐAE (UMD) (³º¡) [34], ÐÂÖÚÐÑ-ËÔÔÎÇ-AEÑÄÂÕÇÎßÔÍÑÌ ÍÑÏÒÂÐËË CCR (Calabasas Creek Research, Inc.) (³º¡) [35],´ÇÓÂÅÇÓÙÇÄÑÏ ÐÂÖÚÐÑÏ ÙÇÐÕÓÇ (THz RC) (¹ÇÐAEÖ, ¬ËÕÂÌ) [36], ¶ÇAEÇÓÂÎßÐÑÌ ÒÑÎËÕÇØÐËÚÇÔÍÑÌ ÛÍÑ-ÎÇ ÑÊÂÐÐÞ ( Ecole polytechnique f ed erale de Lausanne ì EPFL) [37]. ³ÑÊAEÂÐÞ ÍÑÏÏÇÓÚÇÔÍËÇ ×ËÓÏÞ (ÐÂÒÓËÏÇÓ, Bridge12 [38] ±ÇÓÄÂâ ÒÑÒÞÕÍ ÒÑÄÞÛÇÐËâ ÚÖÄÔÕÄËÕÇÎßÐÑÔÕË ²¡¥-ÔÒÇÍÕÓÑÏÇÕÓ ÒÓË ÒÓËÏÇÐÇÐËË ÅËÓÑÕÓÑÐÂ Ä ÍÂÚÇÔÕÄÇ ËÔÕÑÚÐËÍ ËÊÎÖÚÇÐËâ ÃÞΠÒÓÇAEÒÓËÐâÕ ÃÑÎÇÇ 40 ÎÇÕ ÐÂÊÂAE [80].…”
Section: ±óëïçóþ óçâîëêâùëë õçóâåçóùçäþø åëóñõóñðñä°òmentioning
confidence: 99%