TJ-II:Experimental proposals: Difference between revisions

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The proposal page is created on the basis of this [[TJ-II:Proposal template|Proposal template]]. You do not need to view or modify it. Your proposal will automatically be included in the lists below (provided you don't delete the relevant lines at the end of your proposal). You may need to reload this page to update the lists.
The proposal page is created on the basis of this [[TJ-II:Proposal template|Proposal template]]. You do not need to view or modify it. Your proposal will automatically be included in the lists below (provided you don't delete the relevant lines at the end of your proposal). You may need to reload this page to update the lists.
== Experimental proposals, Autumn 2018 ==
Deadline: October 10, 2018
<DPL>
  category = TJ-II experimental proposals Autumn 2018
  nottitlematch=TJ-II:Proposal template
  mode = ordered
</DPL>


== Experimental proposals, Spring 2018 ==
== Experimental proposals, Spring 2018 ==

Revision as of 09:17, 24 September 2018

TJ-II Model

Creation of a new proposal

  1. Log in to the FusionWiki. If you don't have an account, request one by clicking 'Create account' in the left-hand menu.
  2. Type the name of your proposal page in the field below. The required format is: 'TJ-II:Title of my proposal' (without the apostrophes). Note the 'TJ-II:' at the beginning!
  3. Click 'Create new proposal'. Your proposal page will be created. Edit and save (please use 'Show preview' before saving the final version).

The proposal page is created on the basis of this Proposal template. You do not need to view or modify it. Your proposal will automatically be included in the lists below (provided you don't delete the relevant lines at the end of your proposal). You may need to reload this page to update the lists.

Experimental proposals, Autumn 2018

Deadline: October 10, 2018

  1. TJ-II:Influence of positive and negative density gradients in turbulent transport using the HIBP system
  2. TJ-II:Turbulence spreading and ECRH modulation experiments in the TJ-II stellarator
  3. TJ-II:Pellet Injections into TJ-II plasmas with core fast electron population
  4. TJ-II:Validation of ECCD predictions in TJ-II ECRH plasmas
  5. TJ-II:Er and turbulence asymmetries in low ripple configurations measured by Doppler reflectometry
  6. TJ-II:Real Time lithiatiation of TJII
  7. TJ-II:Radiation asymmetries and potential variations

Experimental proposals, Spring 2018

Deadline: March 7, 2018

  1. TJ-II:Observation of suprathermal ions with Neutral Particle Analyzers during electron cyclotron heating in the TJ-II stellarator
  2. TJ-II:Poloidal 2D scans to investigate potential and density profiles in the TJ-II stellarator using dual Heavy ion beam probe diagnostic
  3. TJ-II:Validation of bootstrap predictions
  4. TJ-II:Transport analysis by means of the Transfer Entropy
  5. TJ-II:Understanding an often observed transient rise in core electron temperature during pellet injection into TJ-II plasmas
  6. TJ-II:Improving fuelling efficiency in TJ-II ECRH plasmas
  7. TJ-II:The influence of a core fast electron population on pellet fuelling efficiency in TJ-II
  8. TJ-II:Studies of LIquid Metal insertion in TJ-II
  9. TJ-II:Fast Camera studies with triple bundle
  10. TJ-II:Turbulence and radial electric field asymmetries in high iota magnetic configuration measured by Doppler reflectometry
  11. TJ-II:Influence of electron / ion root and ion mass on the radial and frequency structure of zonal flows in TJ-II
  12. TJ-II:Blobs vs streamers
  13. TJ-II:Investigation of the ECRH power level and deposition radius on impurity confinement after injection by laser blow-off in TJ-II
  14. TJ-II:Evaluation of Neoclassical transport correction terms in TJ-II
  15. TJ-II:Turbulence studies during transient pellet induced regimes
  16. TJ-II:Infrared thermography of the NBI Beam Stop: NBI contribution to plasma fuelling
  17. TJ-II:Dependence of NBI-driven Alfvén Eigenmodes on NBI energy and power
  18. TJ-II:ECRH system calibration
  19. TJ-II: Radiation asymmetries and potential variations

Experimental proposals, Spring 2017

Deadline: January 26, 2017

  1. TJ-II:Search for physical mechanisms that lead to increase of turbulence following pellet injection
  2. TJ-II:Effect of pellet injection on the radial electric field profile of stellarators
  3. TJ-II:Excitation of zonal flow oscillations by energetic particles
  4. TJ-II:Radial electric field of low-magnetic-field low-collisionality NBI plasmas
  5. TJ-II:Comparison of transport of on-axis and off-axis ECH-heated plasmas
  6. TJ-II:Impurity injection by laser blow-off: influence of main ions charge/mass on impurity confinement and transport
  7. TJ-II:PelletFuelling
  8. TJ-II:Impurity density and potential asymmetries
  9. TJ-II:Investigation of turbulence spreading and information transfer in the TJ-II stellarator
  10. TJ-II:Role of isotope effect on biasing induced transitions in the TJ-II stellarator
  11. TJ-II:Investigation of the mechanism of decoupling between energy and particle transport channels: Proposal for joint experiments in TJ-II and H-J
  12. TJ-II:Alfven Eigenmodes and biasing in TJ-II
  13. TJ-II:Potential asymmetries at low magnetic field
  14. TJ-II:NBI contribution to plasma fuelling
  15. TJ-II:Investigation of plasma asymmetries in the TJ-II stellarator and comparison with Gyrokinetic simulations
  16. TJ-II:Effect of ECRH on the characteristics of Alfven Eigenmodes activity
  17. TJ-II:Investigating the Alfvén Wave damping
  18. TJ-II:L-H Transition and Isotope Effect in low magnetic ripple configurations
  19. TJ-II:Measurements of radial correlation length and tilting of turbulent eddies by Radial Correlation Doppler Reflectometry
  20. TJ-II:Measurement of Te and ne of Blobs analyzing recycling helium emission in front of a poloidal limiter
  21. TJ-II:Potential Assymetries at low magnetic field

See also