High-power gyrotrons for electron cyclotron heating and current drive

Abstract: In many tokamak and stellarator experiments around the globe that are investigating energy production via controlled thermonuclear fusion, electron cyclotron heating and current drive (ECH&CD) are used for plasma start-up, heating, non-inductive current drive and MHD stability control. ECH will be the first auxiliary heating method used on ITER. Megawatt-class, continuous wave (CW) gyrotrons are employed as high-power millimeter (mm)-wave sources. The present review reports on the worldwide state-of-the-art of… Show more

“…One more 170 GHz ITER gyrotron was delivered for EU team for testing of the microwave components. All of them satisfied ITER requirements, including efficiency more than 50% with energy recovery system, 100% power modulation with frequency up to 5 kHz [3], [4]. At present the main purpose of the system modification is an enhancement of the system reliability and implementation of all gyrotron systems into ITER machine and its control and safety system.…”

Russian Gyrotrons: Achievements and Trends

“…One more 170 GHz ITER gyrotron was delivered for EU team for testing of the microwave components. All of them satisfied ITER requirements, including efficiency more than 50% with energy recovery system, 100% power modulation with frequency up to 5 kHz [3], [4]. At present the main purpose of the system modification is an enhancement of the system reliability and implementation of all gyrotron systems into ITER machine and its control and safety system.…”

Russian Gyrotrons: Achievements and Trends

“…In 2006, Oda et al conducted experiments using a MW-class 170 GHz millimeter-wave at the National Institute for Quantum and Radiological Science and Technology (formerly Japan Atomic Energy Agency). 2 Reportedly, at S* > 0.75 GW/m 2 , the ionization front propagates at supersonic speed. Furthermore, a filamentary structure differed from the quarter-wavelength structure was observed.…”

“…Although many studies have specifically examined atmospheric discharge using direct current or RF waves and microwave waves, 1 few studies have investigated atmospheric discharge using millimeter-waves. Recently, high-power millimeter-wave oscillators (gyrotrons) have been developed, 2 making atmospheric millimeter-wave discharge possible. Gyrotrons have been developed intensively for heating nuclear fusion plasma.…”

Experimental investigation of ionization front propagating in a 28 GHz gyrotron beam: Observation of plasma structure and spectroscopic measurement of gas temperature

“…According to the estimates of the plasma community and existent concepts, the ITER facility alone requires from 24 to 50 continuous‐wave megawatt sources that generate at a frequency of 170 GHz . The only device, which satisfies the aforesaid requirements per unit and still is relatively inexpensive and small size, is the gyrotron . Gyrotron complexes have been used successfully for microwave plasma heating for quite a long time in nearly all CF facilities, both in Russia and abroad …”

“…1 The only device, which satisfies the aforesaid requirements per unit and still is relatively inexpensive and small size, is the gyrotron. 4 Gyrotron complexes have been used successfully for microwave plasma heating for quite a long time in nearly all CF facilities, both in Russia and abroad. 5 However, as the power of gyrotrons increases (the increase in the gyrotron power up to 2 MW and higher being of essential interest [6][7][8][9] or the radiation wavelength shortens, transverse dimensions of the interaction space must satisfy to acceptable level of thermal load on the cavity wall.…”

Design of master oscillator for frequency locking of a complex of megawatt level microwave sources