Category:TJ-II internal documents
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List of pages related to TJ-II operation
Pages in category "TJ-II internal documents"
The following 124 pages are in this category, out of 124 total.
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- TJ-II: 2D mapping of plasma parameters using HIBP
- TJ-II: 2D mapping of plasma potential and density and their fluctuations in ECRH plasmas
- TJ-II: Biasing experiments in TJ-II: Feed back control of Zonal Flows and cross-phase effects on turbulent transport
- TJ-II: Calibration of the helical arrays of Mirnov coils
- TJ-II: Combining retarding-field energy analyzer and electrostatic probes measurements, an approach to measure the phase relation between density and temperature fluctuations using RFA?
- TJ-II: Commissioning of new Gas Puff Imaging system
- TJ-II: Commissioning of the new helical arrays of magnetic coils
- TJ-II: Comparison of Beam-wall effects at the beam ducts of NBI
- TJ-II: Density limit and ZFs in TJ-II
- TJ-II: Determination of the spatial periodicity of NBI-driven Alfvén Eigenmodes and study of its magnetic configuration dependence
- TJ-II: Edge – SOL coupling studies using fast cameras and Langmuir probes: role of edge turbulence and radial electric fields
- TJ-II: Electric potential and turbulence studies with HIBP and LP via edge biasing
- TJ-II: Evolution of LCR by HIBP and Probes
- TJ-II: Fast particles induced transport: ExB transport and asymmetries
- TJ-II: Feed back control of Zonal Flows and turbulence in TJ-II
- TJ-II: Filter spectroscopy for pellet ablation cloud in TJ-II NBI plasmas
- TJ-II: impact of impurities on turbulence
- TJ-II: Impurity injection by laser blow-off (LBO): Confinement and transport studies of high Z impurity injection by LBO in ion-root regime discharges
- TJ-II: Impurity injection by laser blow-off (LBO): Confinement and transport studies of high Z impurity injection by LBO in ion-root scenarios (II). Comparison to neoclassical and turbulence simulations.
- TJ-II: Impurity injection with TESPEL in TJ-II stellarator
- TJ-II: Influence of Alfven Eigenmodes in edge turbulence and Zonal Flows
- TJ-II: Influence of edge radial electric fields on impurity transport
- TJ-II: Influence of magnetic configuration on filament dynamics
- TJ-II: Infuence of AEs on ExB transport: role of phase shift effects
- TJ-II: Injection of TESPELs with compounds or multiple elements of interest for W7-X
- TJ-II: Investigation of Pellet Deposition Profiles and Transports in TJ-II using Integrated Predictive Modelling Codes
- TJ-II: Magnetic fluctuations induced by pellet injections in TJ-II
- TJ-II: Measurements using Gas Puff Imaging system
- TJ-II: Multipellet injection in NBI plasmas
- TJ-II: On the electrostatic transport driven by Alfvén modes and broadband turbulence in the plasma edge region of the TJ-II stellarator
- TJ-II: On the physics of the density limit
- TJ-II: On the search of Zonal Flows and the influence of Alfvén Eigenmodes in the TJ-II stellarator
- TJ-II: Pellet induced Enhanced Confinement: the role of Er and turbulence
- TJ-II: Perpendicular plasma flow asymmetries in different iota magnetic configurations measured by Doppler reflectometry
- TJ-II: Physics of transport decoupling, an approach to measure the phase relation between density and temperature fluctuations
- TJ-II: Plasma turbulence and cryogenic pellet injection
- TJ-II: Radiation asymmetries and potential variations
- TJ-II: Searching for AEs suppression scenarios using off-axis ECCD
- TJ-II: SOL Temperature profiles using RFA role of edge radial electric fields
- TJ-II: Spectroscopic studies of TESPEL-shell ablation clouds
- TJ-II: Studies of liquid metal insertion n TJ-II
- TJ-II: Studies of pellet plasmoid drift in different magnetic configurations
- TJ-II: Studies of the dynamics of injected hydrogen pellets in the stellarator TJ-II
- TJ-II: Turbulent ExB transport studies using HIBP and edge probes
- TJ-II: Two dimensional distribution of plasma potential and density
- TJ-II: Validation of neutral beam current drive
- TJ-II: Why fast reaction of plasma fluctuations to ECRH ?
- TJ-II: Zeff measurement using visible bremsstrahlung (VB) with NBI heating (II)
- TJ-II: Zeff measurement using visible bremsstrahlung emissions with NBI heating
- TJ-II:Alfven Eigenmodes and biasing in TJ-II
- TJ-II:Blobs vs streamers
- TJ-II:Comparison of the ionic effective charge of TJ-II plasmas after recent vacuum wall boronization/lithiumization with Laser Blow-off contaminated plasmas using visible bremsstrahlung emissions
- TJ-II:Comparison of transport of on-axis and off-axis ECH-heated plasmas
- TJ-II:Dependence of NBI-driven Alfvén Eigenmodes on NBI energy and power
- TJ-II:ECRH system calibration
- TJ-II:Effect of ECRH on the characteristics of Alfven Eigenmodes activity
- TJ-II:Effect of pellet injection on the radial electric field profile of stellarators
- TJ-II:Er and turbulence asymmetries in low ripple configurations measured by Doppler reflectometry
- TJ-II:Evaluation of Neoclassical transport correction terms in TJ-II
- TJ-II:Excitation of zonal flow oscillations by energetic particles
- TJ-II:Experimental program
- TJ-II:Experimental proposals
- TJ-II:Fast Camera studies with triple bundle
- TJ-II:Imaging of pelet cloud dynamics in TJ-II using Halpha and bremsstraahlung filters and a fast-frame camera
- TJ-II:Improving fuelling efficiency in TJ-II ECRH plasmas
- TJ-II:Impurity density and potential asymmetries
- TJ-II:Impurity injection by laser blow-off: influence of main ions charge/mass on impurity confinement and transport
- TJ-II:Impurity transport studies by LILA-TOF detection. A Lithium Laser-Ablation based Time-of-Flight (LILA-TOF) diagnostic for measuring plasma edge ion temperature (II). Influence of toroidal plasma rotation
- TJ-II:Impurity transport studies by LILA-TOF detection. A Lithium Laser-Ablation based Time-of-Flight (LILA-TOF) diagnostic for measuring plasma edge ion temperature and toroidal plasma rotation
- TJ-II:In situ, real time boronization of TJ-II
- TJ-II:Influence of edge radial electric fields on particle and heat in the SOL
- TJ-II:Influence of electron / ion root and ion mass on the radial and frequency structure of zonal flows in TJ-II
- TJ-II:Influence of positive and negative density gradients in turbulent transport using the HIBP system
- TJ-II:Influence of radial electric field on intermittence near rational surfaces
- TJ-II:Infrared thermography of the NBI Beam Stop: NBI contribution to plasma fuelling
- TJ-II:Infrared thermography of the NBI Beam Stop: NBI contribution to plasma fuelling (2)
- TJ-II:Investigating the Alfvén Wave damping
- TJ-II:Investigation of plasma asymmetries in the TJ-II stellarator and comparison with Gyrokinetic simulations
- TJ-II:Investigation of the ECRH power level and deposition radius on impurity confinement after injection by laser blow-off in TJ-II
- TJ-II:Investigation of the mechanism of decoupling between energy and particle transport channels: Proposal for joint experiments in TJ-II and H-J
- TJ-II:Investigation of turbulence spreading and information transfer in the TJ-II stellarator
- TJ-II:L-H Transition and Isotope Effect in low magnetic ripple configurations
- TJ-II:L-H transition studies: characterization of plasma turbulence using Gas Puff Imaging, Probes, Doppler reflectometry and HIBP diagnostics
- TJ-II:Large pellet injection into NBI-heated plasmas of tJ-II
- TJ-II:LIA-TOF. New method for Edge Ti determination in TJ-II
- TJ-II:Measurement of Te and ne of Blobs analyzing recycling helium emission in front of a poloidal limiter
- TJ-II:Measurements of radial correlation length and tilting of turbulent eddies by Radial Correlation Doppler Reflectometry
- TJ-II:NBI contribution to plasma fuelling
- TJ-II:NBI1 vs. NBI2 heated plasma comparison
- TJ-II:Observation of suprathermal ions with Neutral Particle Analyzers during electron cyclotron heating in the TJ-II stellarator
- TJ-II:Pellet Injections into TJ-II plasmas with core fast electron population
- TJ-II:PelletFuelling
- TJ-II:Plasma fueling experiments: influence of gas puffing distribution on plasma behaviour
- TJ-II:Poloidal 2D scans to investigate potential and density profiles in the TJ-II stellarator using dual Heavy ion beam probe diagnostic
- TJ-II:Potential Assymetries at low magnetic field
- TJ-II:Potential asymmetries at low magnetic field
- TJ-II:Proposal template
- TJ-II:Radial electric field of low-magnetic-field low-collisionality NBI plasmas
- TJ-II:Radiation asymmetries and potential variations
- TJ-II:Re-commissioning of Fast Ion Loss Detector
- TJ-II:Real Time lithiatiation of TJII
- TJ-II:Real Time Lithiation-boronization in TJ-II
- TJ-II:Role of isotope effect on biasing induced transitions in the TJ-II stellarator
- TJ-II:Role of isotope mass on the radial width of Zonal Flows
- TJ-II:Routine and systematic use of the LIBS
- TJ-II:Search for physical mechanisms that lead to increase of turbulence following pellet injection
- TJ-II:Searching for AEs suppression scenarios using off-axis ECCD
- TJ-II:Searching for zonal fields and zonal flows driven by fast particles in TJ-II
- TJ-II:Studies of LIquid Metal insertion in TJ-II
- TJ-II:The influence of a core fast electron population on pellet fuelling efficiency in TJ-II
- TJ-II:The study of edge turbulence in the presence of ECRH and NBI heating
- TJ-II:Transport analysis by means of the Transfer Entropy
- TJ-II:Turbulence and flow measured at the 3/2 magnetic island using Doppler reflectometry
- TJ-II:Turbulence and radial electric field asymmetries in different iota magnetic configurations measured by Doppler reflectometry
- TJ-II:Turbulence and radial electric field asymmetries in high iota magnetic configuration measured by Doppler reflectometry
- TJ-II:Turbulence driven magnetic islands
- TJ-II:Turbulence properties near a rational surface
- TJ-II:Turbulence spreading and ECRH modulation experiments in the TJ-II stellarator
- TJ-II:Turbulence studies during transient pellet induced regimes
- TJ-II:Understanding an often observed transient rise in core electron temperature during pellet injection into TJ-II plasmas
- TJ-II:Validation of bootstrap predictions
- TJ-II:Validation of ECCD predictions in TJ-II ECRH plasmas
- TJ-II:Why fast particle electromagnetic induced stabilization in fusion plasmas?