Matter and Radiation at Extremes, Volume. 8, Issue 4, 046903(2023)
A systematic investigation of radiation collapse for disruption avoidance and prevention on JET tokamak
[1] F.Chen. An Indispensable Truth: How Fusion Power Can Save the Planet(2011).
[2] J.Wesson. Tokamaks(2004).
[4] R.Wenningeret?al.. Power handling and plasma protection aspects that affect the design of the DEMO divertor and first wall.
[15] C.Sozziet?al.. Termination of discharges in high performance scenarios in JET.
[19] C. L.Lawson, L.Lawson C., R. J.Hanson. Solving Least Squares Problems(1995).
[23] K.Lange, and K.Lange, K.Carson. EM reconstruction algorithms for emission and transmission tomography. J. Comput. Assisted Tomogr., 8, 306-316(1984).
[31] A.Bhattacharyya. On a measure of divergence between two multinomial populations. Indian J. Stat., 7, 401-406(1946).
[41] J.Garciaet?al.. Integrated scenario development at JET for DT operation and ITER risk mitigation.
Get Citation
Copy Citation Text
R. Rossi, M. Gelfusa, T. Craciunescu, L. Spolladore, I. Wyss, E. Peluso, J. Vega, C. F. Maggi, J. Mailloux, M. Maslov, A. Murari, [in Chinese]. A systematic investigation of radiation collapse for disruption avoidance and prevention on JET tokamak[J]. Matter and Radiation at Extremes, 2023, 8(4): 046903
Category: Radiation and Hydrodynamics
Received: Jan. 20, 2023
Accepted: May. 7, 2023
Published Online: Aug. 7, 2023
The Author Email: Gelfusa M. (gelfusa@ing.uniroma2.it)