Details

Autor(en) / Beteiligte

• Tanna, R L
• Ghosh, Joydeep
• Jadeja, Kumarpalsinh A
• Kumar, Rohit
• Aich, Suman
• Patel, Kaushal
• Raj, Harshita
• Singh, Kaushlender
• Dolui, Suman
• Shah, Kajal
• Patel, Sharvil
• Yadava, Nandini
• Macwan, Tanmay
• Kanik, Abha
• Kumar, Ankit
• Hegde, Bharat
• Kumawat, Ashok Kumar
• Kundu, Ananya
• Joshi, Ramesh
• Sharma, Deepti
• Patel, Ankit B
• Pradhan, Laxmikanta
• Galodiya, Kalpesh
• Pandya, Shwetang N
• Banerjee, Soumitra
• Hoque, Injamul
• Yadav, Komal
• Chowdhuri, Malay Bikas
• Manchanda, Ranjana
• Ramaiya, Nilam
• Dey, Ritu
• Shukla, Gaurav
• Modi, Dipexa
• Sharma, Vishal
• Gauttam, Aman
• Makwana, Moti
• Shah, Kunal S
• Gupta, Shivam
• Nair, Supriya
• Purohit, Shishir
• Nagora, Umesh
• Adhiya, Asha
• Patel, Kiran
• Asudani, Kumudni
• Jha, S Kumar
• Kumawat, Devilal
• Pandya, Santosh P
• Siju, Varsha
• V, Praveenlal E
• Arambhadiya, Bharat
• Shah, Minsha
• Gautam, Pramila
• Raulji, Vismay
• Shukla, Praveena
• Kumar, Abhijeet
• Patel, Mitesh
• Rajpal, Rachana
• Bhandarkar, Manisha
• Mansuri, Imran
• Mahajan, Kirti
• Mishra, Kishore
• Kumar, Sunil
• Shukla, Braj K
• Kumar, Jagabandhu
• Sharma, P K
• Aggarwal, Snehlata
• Ajay, Kumar
• Gupta, Manoj Kumar
• Pathak, Surya Kumar
• Chattopadhyay, P K
• Raju, D
• Dutta, Someswar
• Pahari, Sambaran
• Bisai, Nirmal
• Chauhan, Chetna
• Saxena, Y C
• Sen, Abhijit
• Pal, Rabindranath
• Chaturvedi, Shashank

Titel

Overview of physics results from the ADITYA-U tokamak and future experiments

Ist Teil von

• Nuclear fusion, 2024-04

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Abstract The ADITYA Upgrade (ADITYA-U), a medium-sized (R_0=75 cm,a=25 cm) conventional tokamak facility in India, has been consistently producing experiments findings by using circular and shaped-plasmas. Recognizing the plasma parameters aligning closely with the design parameters of circular limited plasmas, ADITYA-U shifted its focus toward exploring the operational regime for experimentation on saw-tooth and MHD phenomena. Moreover, ADITYA-U has made consistent advancements toward conducting preliminary plasma shaping experiments through the activation of top and bottom divertor coils utilizing hydrogen as well as deuterium fuels. Confinement is improved by a factor of ~ 1.5 in D_2 plasmas when compared to H_2 plasmas of ADITYA-U. Further, ADITYA-U operations emphasize preventing disruptions and runaway electrons (REs) to ensure safe operations for future fusion devices. Significant suppression of REs has been achieved in ADITYA-U with the application of pulsed localized vertical magnetic field (LVF) perturbation, thereby establishing the technique's independence from the tokamak device. The successful RE mitigation requires a critical threshold of LVF pulse magnitude, which is approximately 1% of the toroidal magnetic field, and a minimum duration of ~ 5 ms. Apart from this, several novel findings have been achieved in the ADITYA-U experiments, including the modification of sawtooth duration through gas-puff, the emergence of MHD-induced GAM-like oscillations, the propagation of fast heat pulses induced by MHD activity, the control of RE dynamics through Gas-puffs, the propagation of pinch-driven cold-pulses, the transport and core accumulations of argon impurities, the mass dependency of plasma toroidal rotation and the detection of “RICE” scaling, as well as the characterization of edge plasma using wall conditioning methods, such as glow discharge cleaning using a combination of Ar-H2 mixture, localized wall cleaning by Electron Cyclotron (EC) resonant plasma, and the development of machine learning-based disruption predictions, will be discussed in this paper.