42GHz ECRH assisted Plasma Breakdown in tokamak SST-1

• Published in: EPJ Web of Conferences Vol. 87; pp. 2008 - 1-02008-6
• Main Authors: Shukla, B. K., Pradhan, S., Patel, Paresh, Babu, Rajan, Patel, Jatin, Patel, Harshida, Dhorajia, Pragnesh, Tanna, V., Atrey, P K, Manchanda, R, Gupta, Manoj, Joisa, Shankar, Gupta, C N, Danial, Raju, Singh, Prashant, Jha, R., Bora, D.
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Les Ulis EDP Sciences 01.01.2015
• Subjects: Breakdown; Delay; Electric potential; Harmonics; Magnetic fields; Microwaves; Plasma; Tokamak devices; Voltage
• ISSN: 2100-014X; 2101-6275; 2100-014X
• DOI: 10.1051/epjconf/20158702008

In SST-1, 42GHz ECRH system has been commissioned to carry out breakdown and heating experiments at 0.75T and 1.5T operating toroidal magnetic fields. The 42GHz ECRH system consists of high power microwave source Gyrotron capable to deliver 500kW microwave power for 500ms duration, approximately 20 meter long transmission line and a mirror based launcher. The ECRH power in fundamental O-mode & second harmonic X-mode is launched from low field side (radial port) of the tokamak. At 0.75T operation, approximately 300 kW ECH power is launched in second harmonic X-mode and successful ECRH assisted breakdown is achieved at low loop_voltage ~ 3V. The ECRH power is launched around 45ms prior to loop voltage. The hydrogen pressure in tokamak is maintained ~ 1×10-5mbar and the pre-ionized density is ~ 4×1012/cc. At 1.5T operating toroidal magnetic field, the ECH power is launched in fundamental O-mode. The ECH power at fundamental harmonic is varied from 100 kW to 250 kW and successful breakdown is achieved in all ECRH shots. In fundamental harmonic there is no delay in breakdown while at second harmonic ~ 40ms delay is observed, which is normal in case of second harmonic ECRH assisted breakdown.