Overview of recent experimental results from the Aditya tokamak

Tanna, R.L. ; Ghosh, J. ; Chattopadhyay, P.K. ; Raj, Harshita ; Patel, Sharvil ; Dhyani, P. ; Gupta, C.N. ; Jadeja, K.A. ; Patel, K.M. ; Bhatt, S.B. ; Panchal, V.K. ; Patel, N.C. ; Chavda, Chhaya ; Praveenlal, E.V. ; Shah, K.S. ; Makawana, M.N. ; Jha, S.K. ; Gopalkrishana, M.V. ; Tahiliani, K. ; Sangwan, Deepak ; Raju, D. ; Nagora, Umesh ; Pathak, S.K. ; Atrey, P.K. ; Purohit, S. ; Raval, J. ; Joisa, Y.S. ; Rao, C.V.S. ; Chowdhuri, M.B. ; Banerjee, S. ; Ramaiya, N. ; Manchanda, R. ; Thomas, J. ; Kumar, Ajai ; Ajay, Kumar ; Sharma, P.K. ; Kulkarni, S.V. ; Sathyanarayana, K. ; Shukla, B.K. ; Das, Amita ; Jha, R. ; Saxena, Y.C. ; Sen, A. ; Kaw, P.K. ; Bora, D. (2017) Overview of recent experimental results from the Aditya tokamak Nuclear Fusion, 57 (10). p. 102008. ISSN 0029-5515

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Official URL: http://doi.org/10.1088/1741-4326/aa6452

Related URL: http://dx.doi.org/10.1088/1741-4326/aa6452

Abstract

Several experiments, related to controlled thermonuclear fusion research and highly relevant for large size tokamaks, including ITER, have been carried out in ADITYA, an ohmically heated circular limiter tokamak. Repeatable plasma discharges of a maximum plasma current of ~160 kA and discharge duration beyond ~250 ms with a plasma current flattop duration of ~140 ms have been obtained for the first time in ADITYA. The reproducibility of the discharge reproducibility has been improved considerably with lithium wall conditioning, and improved plasma discharges are obtained by precisely controlling the position of the plasma. In these discharges, chord-averaged electron density ~3.0–4.0  ×  1019 m−3 using multiple hydrogen gas puffs, with a temperature of the order of ~500–700 eV, have been achieved. Novel experiments related to disruption control are carried out and disruptions, induced by hydrogen gas puffing, are successfully mitigated using the biased electrode and ion cyclotron resonance pulse techniques. Runaway electrons are successfully mitigated by applying a short local vertical field (LVF) pulse. A thorough disruption database has been generated by identifying the different categories of disruption. Detailed analysis of several hundred disrupted discharges showed that the current quench time is inversely proportional to the q edge. Apart from this, for volt–sec recovery during the plasma formation phase, low loop voltage start-up and current ramp-up experiments have been carried out using electron cyclotron resonance heating (ECRH). Successful recovery of volt–sec leads to the achievement of longer plasma discharge durations. In addition, the neon gas puff assisted radiative improved confinement mode has also been achieved in ADITYA. All of the above mentioned experiments will be discussed in this paper.

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Deposited On:20 Jan 2023 11:34
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