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In a world increasingly facing new challenges at the forefront of plasma scientific research and technological innovation, CNR and ISTP pledge progress and achieve an impact in the integration of research into societal practices and policy

Dynamics and Confinement of Ultralow-q Plasmasin the RFX-mod Device

Zuin M.; Agostini M.; Auriemma F.; Bonfiglio D.; Cappello S.; Carraro L.; Cavazzana R.; Cordaro L.; Franz P.; Marrelli L.; Martines E.; Puiatti M.E.; Piovan R.; Spizzo G.; Terranova D.; Vianello N.; Zanca P.; Zaniol B.; Zanotto L.

Conference: FEC 2020 - 28th IAEA Fusion Energy Conference, , Virtual Event Europe/Vienna timezone , 10-15 May 2021 Year: 2021
ISTP Authors:
Lionello Marrelli
Nicola Vianello
Gianluca Spizzo
David Terranova
Matteo Zuin
Matteo Agostini
Daniele Bonfiglio
Fulvio Auriemma
Lorella Carraro
Susanna Cappello
Keywords: , , ,
Research Activitie:

Experimental UltraLow q, ULq q(a)< 1 plasma dynamics study in RFX mod device. Good agreement with non linear 3 D visco resistive MHD simulations. Both almost quiescent and largely fluctuating plasmas strongly sensitive on q(a Tendency of a dominant single mode (kink or resonant internal mode. Magnetic reconnection determines magnetic topology. Flat T e profiles for q(a) 0 5 internal gradients emerge for 0 5 q(a) 1 at low n e core localized thermal structures associated to single helical states. High electron density regimes, n e n G 1 accessible with peaking factors 1. Energy confinement time t E 1 ms with I p 800 kA. No wall locking detected, no double resonant m 1 mode observed.

ID 453988
PRODUCT TYPE Conference Poster
LAST UPDATE 2022-11-15T15:10:24Z
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