TJ-II: Why fast reaction of plasma fluctuations to ECRH ?: Difference between revisions
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The role of phase space driven instabilities <ref>S. Itoh and K. Itoh Scientific Reports 2, 860 (2012)</ref> and the role of plasma gradient driven instabilities <ref>E. Sánchez et al., Nucl Fusion 59, 076029 (2019)</ref>. | The role of phase space driven instabilities <ref>S. Itoh and K. Itoh Scientific Reports 2, 860 (2012)</ref> and the role of plasma gradient driven instabilities <ref>E. Sánchez et al., Nucl Fusion 59, 076029 (2019)</ref>. | ||
From the experimental perspective the goal is the investigation of the influence of ECRH on / off power heating | From the experimental perspective the goal is the investigation of the influence of ECRH on / off power heating in the dynamics of edge & core fluctuations and transport: 1) Level of fluctuations, 2) Phase relation between density and potential fluctuations, 3) Turbulent ExB transport. | ||
== International or National funding project or entity == | == International or National funding project or entity == |
Revision as of 11:47, 16 October 2019
Experimental campaign
2019 Autumn
Proposal title
Why fast reaction of plasma fluctuations to ECRH?
Name and affiliation of proponent
Carlos Hidalgo
Details of contact person at LNF
If applicable, enter contact person here or write N/A
Description of the activity
Why do ERCH/ ICRH avoid core impurity accumulation?. Significant progress has been reported regarding the physics understanding of empirical actuators like core heating to avoid impurity accumulation, including the following mechanisms: 1) A reduction of the background density gradient, leading to a reduction of the inward (neoclassical) convection of impurities; 2) An increase of turbulent diffusion; 3) The amplification of core temperature screening which would be relevant in core alpha-heating regimes; 4) The development of core plasma potential flux surface asymmetries.
Why fast reaction of plasma fluctuations to ECRH?. This is the (challenging) question that we want to answer including experiments in TJ-II 2019 / 20, data analysis and model validation.
From the theoretical perpective we should consider two mechanisms: The role of phase space driven instabilities [1] and the role of plasma gradient driven instabilities [2].
From the experimental perspective the goal is the investigation of the influence of ECRH on / off power heating in the dynamics of edge & core fluctuations and transport: 1) Level of fluctuations, 2) Phase relation between density and potential fluctuations, 3) Turbulent ExB transport.
International or National funding project or entity
If applicable, enter funding here or write N/A
Description of required resources
Required resources:
- Number of plasma discharges or days of operation: two days
- Essential diagnostic systems: Edge & core turbulence and transport studies
- Type of plasmas (heating configuration): ECRH power on-off scan [100 – 600 kW] in H vs He plasmas
- Specific requirements on wall conditioning if any:
- External users: need a local computer account for data access: yes/no
- Any external equipment to be integrated? Provide description and integration needs:
Preferred dates and degree of flexibility
Preferred dates: (format dd-mm-yyyy)