TJ-II:Experimental proposals
Updated TJ-II timeline
Creation of a new proposal
To submit an experimental proposal, please use this form. The table below is updated manually by the campaign management.
Experimental proposals, Spring 2023
Creation date: 16/03/2023 10:26. Please do no edit this table. To submit a new proposal, please, use the link above.
Title | Main proponent | Main proponent's affiliation | Other proponents | Specific objectives of the experiment | |
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Injection of cryogenic pellets in TJ-II operated with an inverted magnetic field | McCarthy, Kieran Joseph | Ciemat | García Cortés, Isabel | When a pellet is injected, it is ablated by plasma and clouds that detach from it should drift down the B-field gradient. In tokamaks, drifting facilitates efficient pellet fuelling for high-field side injection. However, in helical devices, the effect of such drifting is not clear. Thus, the inversion of the TJ-II B field provides a unique opportunity to compare cloud drifting and particle deposition in a helical device. No differences are expected but this needs experimental confirmation. | |
Rational surfaces, flows and radial structure in the TJ-II stellarator: Part II | van Milligen, Boudewijn | CIEMAT | Igor Voldiner (CIEMAT), Benjamin Carreras (UC3M) | We will expand the iota scan of Day 17/03/2022, reported in B.Ph.van Milligen et al., Plasma Phys. Control. Fusion 64 (2023), p. 055006. It revealed an interesting pattern of the poloidal flow velocity, v_theta, linked to low order rational surfaces. Using turbulence modelling, this pattern was shown to be due, likely, to the formation of a staircase pattern in the profiles. By expanding the scan range, here we will study the effect of several major rational surfaces (3/2, 8/5, 5/3). | |
Continuation of studies of pellet plasmoid drift in different magnetic configurations | Panadero, Nerea | CIEMAT | Kieran McCarthy (CIEMAT), Julio Hernández-Sánchez (CIEMAT), Isabel García-Cortés (CIEMAT), Daniel Medina-Roque (CIEMAT) | The main objective of this proposal is to quantify pellet plasmoid drift in the early stages of the homogenization process, and its relationship with rational surfaces for magnetic configurations with an iota profile lower than the standard configuration. In addition, experimental results will be compared with HPI2 predictions, since these experiments will be also part of the current effort to evaluate the stellarator version of HPI2 for the TJ-II, W7-X, LHD and Heliotron-J devices. | |
Spectroscopic Gas Puff Imaging (SGPI) for edge plasma characterisation | de la Cal, Eduardo | CIEMAT | Igor Voldiner (CIEMAT), Boudewijn van Milligen (CIEMAT) | Characterise the edge plasma boundary with the new SGPI system, with focus on 2-dimensional (2D) imaging of electron density (ne) and temperature (Te) turbulence and its coupling to neutrals.The SGPI diagnostic has shown in the last campaign the ability to obtain 2D measurements of the edge plasma ne and Te with a spatial resolution of , 4 mm and exposure times down to 10 microseconds. | |
Studying fast-ion losses induced by Alfvén Eigenmodes in NBI heated plasmas of the stellarator TJ-II | López-Miranda, Belén | CIEMAT | Baciero, Alfonso; Cappa, Álvaro; Medina, Francisco; Pons-Villalonga, Pedro | In magnetic confinement fusion, fast-ions constitute a source of particles and free energy that, under certain conditions, drive various unstable MHD instabilities that significantly degrade fusion performance. In particular, the study of the impact of Alfvén Eigenmodes (AEs) is of special importance for controlling fast-ion transport across the magnetic field. The present experiment aims to study the influence of fast-ion losses induced by AEs in pure NBI-heated & combined ECR and NBI plasmas. | |
Impact of the rotational transform on pellet-induced enhanced performance in the TJ-II stellarator | Carreras, Benjamin | UC3M | Isabel García Cortés (CIEMAT), Kieran McCarthy (CIEMAT), Boudewijn van Milligen (CIEMAT) | In recent work, we observed pellet-induced enhanced confinement at the TJ-II stellarator [reference]. Analysis suggest that this enhancement could be related to the formation of transport barriers associated with low-order rational surfaces. Using the C-mode, i.e., the continuous variation of the rotational transform, we intend to shed further light on this issue. | |
External control of ZF in the TJ-II stellarator | De Pablos, José Luis | LNF | B.P. van Milligen, J.M. Barcala, A. Molinero, O. Kozachok (KIPT), O. Chmyga(KIPT), J. Romero (TAE), C. Hidalgo | The present proposal investigates the possibility of actively stimulating and control the development of low-frequency zonal flows through feedback. | |
Plasma Characterisation with Deuterium pellet injection | Isabel García Cortés | CIEMAT | Kieran McCarthy (CIEMAT), Daniel Medina-Roque (CIEMAT), Nerea Panadero (CIEMAT) | "Enhanced confinement is seen in TJ-II NBI-heated plasmas after single H pellet injection. In addition to the expected rise of core electron density, the plasma diamagnetic energy content rises by up to 40% with respect to similar discharges without PI. Enhancement is larger (up to 70%) when multi-pellets are used. To date, only H pellets into hydrogen plasmas have been studied. Our proposal is to inject deuterium pellets into deuterium plasmas to explore the isotope effect on this PiEC phase. | |
Recommissioning of the CXRS/MSE systems | McCarthy, Kieran Joseph | Ciemat | Jaime de la Riva Villen (Ciemat), Isabel García Cortés (Ciemat) | TJ-II is equipped with a compact NBI for performing CXRS and MSE. The NBI has been non-operative for several years due to a vacuum leak. The leak has been located and repaired. It is intended to recommission the CXRS diagnostic during this campaign. CXRS allows obtaining radial measurements of ion temperature, ion toroidal and poloidal velocity and radial electric field. Once operational, it will be used to measure these parameters during the PiEC phases achieved after pellet injection. | |
TJ-II: Calibration of the helical arrays of Mirnov coils | Pons-Villalonga, Pedro | CIEMAT | Álvaro Cappa (CIEMAT) | Calibration of the arrays of Mirnov coils, which is essential to correctly determine the mode numbers of the MHD perturbations. | |
NBI1 vs. NBI2 heated plasma comparison under reversed field conditions | Estrada, Teresa | CIEMAT | Arturo Alonso (CIEMAT), Alvaro Cappa (CIEMAT), Belen Lopez-Miranda (CIEMAT), Francisco Medina (CIEMAT), Ignacio Pastor (CIEMAT), Jose Luis Velasco (CIEMAT), NBI team. | A systematic comparison of plasmas heated with co- or ctr-NBI shows differences in the maximum achievable density and stored energy; lower values are generally achieved in co-NBI heated plasmas associated to higher impurity accumulation. A more intense negative Er and a reduction in the turbulence are measured in co-NBI heated plasmas as compared to counter- NBI cases. The interpretation of the experimental observations would benefit from experiments carried out under reversed field conditions. | |
Internal density measurements of plasmoid in hydrogen pellet | Gen Motojima | National Institute for Fusion Science (NIFS) | Nerea Panadero, Kieran McCarthy, Shinichiro Kado(Kyoto Univ.) | The objective is to evaluate the plasmoid density in hydrogen pellet to understand the pellet ablation. The measurement of plasmoid density has been conducted in LHD and Heliotron J, there is a difference of plasmoid density in them probably due to the difference of background plasma parameters. If the plasmoid density is evaluated also in TJ-II, it must help the understanding of mechanism of pellet ablation. | |
Impurity hole plasmas in TJ-II | Daniel Medina Roque | CIEMAT | Jose Luis Velasco (CIEMAT), Kieran McCarthy (CIEMAT), Isabel García-Cortés (CIEMAT), Álvaro Cappa (CIEMAT), Belén López-Miranda (CIEMAT), Alfonso Baciero (CIEMAT), Francisco Medina (CIEMAT), Teresa Estrada (CIEMAT), Daniel Carralero (CIEMAT), Emmanouil Maragkoudakis (CIEMAT) | Achieve a positive radial electric field (Er) in the outer plasma region and a negative one in the inner part to reproduce the plasma conditions in the impurity-hole phenomenon in LHD. Then inject the same impurities in the edge by Laser Blow-Off (LBO) and in the core by TESPEL and analyze if there are significant differences in their transport and confinement time. This is a continuation of http://fusionwiki.ciemat.es/wiki/TJ-II:Comparison_of_transport_of_on-axis_and_off-axis_ECH-heated_plasmas | |
Flux suppression via turbulence amplitude and cross phase across radial electric field variation | Tatsuya, Kobayashi | NIFS | Anomalous cross-field transport suppression by radial electric field in torus plasmas is one of central research topics in fusion plasma physics. A prototypical example is the low-to-high confinement mode transition (L-H transition) triggered under a certain level of plasma heat input. In this experiment, we investigate how the turbulent transport is suppressed via the turbulence amplitude suppression and modification of cross phase between potential and density fluctuations. | ||
Continuation of Imaging of pellet cloud dynamics observations in TJ-II using Halpha and bremsstrahlung filters and a fast-frame camera | Gabor Kocsis | Centre for Energy Research | Tamás Szepsi (Centre for Energy Research), Nerea Panadero (CIEMAT), Kieran McCarthy (CIEMAT), Julio Hernández-Sánchez (CIEMAT) | The aim of this proposal is to study the interaction of hydrogen and impurity pellets (TESPELs) with the stellarator plasma by evaluating fast-framing video data. Similar experiments have already been performed at TJ-II, in which drifting pellet clouds were observed. However, for hydrogen pellets, it was hard to recognize single clouds. Therefore, experiments with higher temporal resolution, in several scenarios and magnetic configurations, also using different optical filters, are now proposed. | |
Neutral beam current drive in reversed field configuration | Álvaro Cappa | CIEMAT | José Luis Velasco, J. Martínez | The goal of the experiment is to measure the amplitude of toroidal current driven by both NBIs in reversed field configuration and compare with the results obtained in the standard conditions. | |
The pulsed ECRH wall conditioning scenario for W7-X | Moiseenko, Vladimir | Division of Electricity, Angstrom Laboratory, Uppsala University, Uppsala, Sweden | Yurii Kovtun (KIPT), Andrei Goriaev (FZJ), Dirk Naujoks (IPP), Torsten Stange (IPP), Chandra-Prakash Dhard (IPP), Heinrich Laqua (IPP) | The main goal of the research proposed includes the study of the physical properties of pulsed ECRH wall conditioning discharges, their optimization, usage, and the wall conditioning process caused by them. The optimization studies aiming to shorten the plasma decay stage which gives an opportunity to decrease the time period between shots. Based on these studies, a scenario for wall conditioning at Wendelstein 7-X will be developed. | |
Optimisation of fast-ion confinement TJ-II plasmas | Garcia-Munoz, Manuel | University of Seville | Galdon-Quiroga (University of Seville), Van Vuuren (University of Seville), Viezzer (University of Seville), Gonzalez-Martin (University of Seville) | Optimisation of fast-ion confinement in TJ-II. Optimal TJ-II magnetic topology, kinetic profiles and NBI parameters for fast-ion confinement. AE control with localised ECRH / ECCD | |
Characterization and modelling of the parallel dynamics of impurity ions with and without continuous NBI injection. | Jaime de la Riva Villén | CIEMAT | Arturo Alonso, CIEMAT. Kieran Maccarthy | We propose to investigate the possible effect of NBI momentum injection on the net parallel velocity of the plasma ions and impurities analyzing measurements obtained by CXRS diagnostic. The net parallel velocity of the individual plasma species is a prediction of the neoclassical theory in non-symmetric system. The combination of these parallel flow fields results in the so-called bootstrap current, the accurate prediction of which is of importance in stellarator concepts. | |
CXRS flow measurements: Density and ECRH scan | Jaime de la Riva Villén | CIEMAT | Arturo Alonso, CIEMAT. Kieran Maccarthy, CIEMAT | The objective is to study trends in radial electric field and net parallel velocity profiles in different plasma conditions and magnetic configurations and comparing it with neoclassical expectations. The dependency on the line integrated density, the ECRH power and the magnetic configuration of the flow measurements will be analyzed. |
Experimental proposals, Spring 2022
Deadline: January 24, 2022
- 2021-12-21: TJ-II: Influence of magnetic configuration on filament dynamics
- 2022-01-13: TJ-II:Turbulence properties near a rational surface
- 2022-01-13: TJ-II: Zeff measurement using visible bremsstrahlung (VB) with NBI heating (II)
- 2022-01-13: 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
- 2022-01-13: TJ-II: Multipellet injection in NBI plasmas
- 2022-01-13: 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.
- 2022-01-18: TJ-II: On the search of Zonal Flows and the influence of Alfvén Eigenmodes in the TJ-II stellarator
- 2022-01-18: TJ-II:L-H transition studies: characterization of plasma turbulence using Gas Puff Imaging, Probes, Doppler reflectometry and HIBP diagnostics
- 2022-01-18: TJ-II: Spectroscopic studies of TESPEL-shell ablation clouds
- 2022-01-18: TJ-II: Studies of pellet plasmoid drift in different magnetic configurations
- 2022-01-18: TJ-II: SOL Temperature profiles using RFA role of edge radial electric fields
- 2022-01-18: TJ-II: Determination of the spatial periodicity of NBI-driven Alfvén Eigenmodes and study of its magnetic configuration dependence
- 2022-01-18: TJ-II:NBI1 vs. NBI2 heated plasma comparison
- 2022-01-18: TJ-II:Turbulence and flow measured at the 3/2 magnetic island using Doppler reflectometry
- 2022-01-18: TJ-II: Validation of neutral beam current drive
- 2022-01-19: TJ-II: impact of impurities on turbulence
- 2022-01-19: 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?
- 2022-01-20: TJ-II:Imaging of pelet cloud dynamics in TJ-II using Halpha and bremsstraahlung filters and a fast-frame camera
- 2022-01-20: TJ-II:Searching for AEs suppression scenarios using off-axis ECCD
- 2022-01-20: TJ-II: Influence of edge radial electric fields on impurity transport
- 2022-01-20: TJ-II: 2D mapping of plasma parameters using HIBP
- 2022-01-21: TJ-II: Measurements using Gas Puff Imaging system
- 2022-01-24: TJ-II: On the electrostatic transport driven by Alfvén modes and broadband turbulence in the plasma edge region of the TJ-II stellarator
- 2022-01-24: TJ-II: Calibration of the helical arrays of Mirnov coils
- 2022-03-28: TJ-II: Injection of TESPELs with compounds or multiple elements of interest for W7-X
Session allocation (February - March) ( Feb 18, Approved by the Access Committee on March 2, Minutes).
Session allocation (April - June) ( April 6, Pending approval by the Access Committee).
Experimental proposals, Autumn 2021
Deadline: October 1, 2021
- TJ-II: On the physics of the density limit
- TJ-II: Pellet induced Enhanced Confinement: the role of Er and turbulence
- TJ-II: Evolution of LCR by HIBP and Probes
- 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: 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: Zeff measurement using visible bremsstrahlung emissions with NBI heating
- TJ-II: Turbulent ExB transport studies using HIBP and edge probes
Experimental proposals, Spring 2021
Deadline: January 30, 2021
- TJ-II: Biasing experiments in TJ-II: Feed back control of Zonal Flows and cross-phase effects on turbulent transport
- TJ-II: Commissioning of new Gas Puff Imaging system
- TJ-II: Commissioning of the new helical arrays of magnetic coils
- TJ-II: Edge – SOL coupling studies using fast cameras and Langmuir probes: role of edge turbulence and radial electric fields
- TJ-II: Fast particles induced transport: ExB transport and asymmetries
- TJ-II: Influence of Alfven Eigenmodes in edge turbulence and Zonal Flows
- TJ-II: Infuence of AEs on ExB transport: role of phase shift effects
- TJ-II: Magnetic fluctuations induced by pellet injections in TJ-II
- TJ-II: Studies of the dynamics of injected hydrogen pellets in the stellarator TJ-II
- TJ-II: Two dimensional distribution of plasma potential and density
- TJ-II: Perpendicular plasma flow asymmetries in different iota magnetic configurations measured by Doppler reflectometry
Resolution of the experimental proposals Autumn 2019 and Feb_2020
Experimental proposals, Spring 2020
Deadline: January 23, 2020
- TJ-II: Filter spectroscopy for pellet ablation cloud in TJ-II NBI plasmas
- TJ-II: Density limit and ZFs in TJ-II
- TJ-II: Comparison of Beam-wall effects at the beam ducts of NBI
- TJ-II:Real Time Lithiation-boronization in TJ-II
- TJ-II:LIA-TOF. New method for Edge Ti determination in TJ-II
Resolution of the experimental proposals Autumn 2019 and Feb_2020
Experimental proposals, Autumn 2019
Deadline: October 15, 2019
- TJ-II:Turbulence driven magnetic islands
- TJ-II:Large pellet injection into NBI-heated plasmas of tJ-II
- TJ-II:Why fast particle electromagnetic induced stabilization in fusion plasmas?
- TJ-II:Influence of radial electric field on intermittence near rational surfaces
- TJ-II: Physics of transport decoupling, an approach to measure the phase relation between density and temperature fluctuations
- TJ-II: Feed back control of Zonal Flows and turbulence in TJ-II
- TJ-II:The study of edge turbulence in the presence of ECRH and NBI heating
- TJ-II: Investigation of Pellet Deposition Profiles and Transports in TJ-II using Integrated Predictive Modelling Codes
- TJ-II: Electric potential and turbulence studies with HIBP and LP via edge biasing
- TJ-II: Plasma turbulence and cryogenic pellet injection
- TJ-II: Impurity injection with TESPEL in TJ-II stellarator
- TJ-II: Why fast reaction of plasma fluctuations to ECRH ?
- TJ-II: Searching for AEs suppression scenarios using off-axis ECCD
- TJ-II: 2D mapping of plasma potential and density and their fluctuations in ECRH plasmas
- TJ-II:Turbulence and radial electric field asymmetries in different iota magnetic configurations measured by Doppler reflectometry
- TJ-II: Studies of liquid metal insertion n TJ-II
- TJ-II:Plasma fueling experiments: influence of gas puffing distribution on plasma behaviour
- TJ-II:Infrared thermography of the NBI Beam Stop: NBI contribution to plasma fuelling (2)
Resolution of the experimental proposals Autumn 2019
Experimental proposals, Spring 2019
Deadline: January 29, 2019
- TJ-II:Searching for zonal fields and zonal flows driven by fast particles in TJ-II
- TJ-II:Role of isotope mass on the radial width of Zonal Flows
- TJ-II:Influence of edge radial electric fields on particle and heat in the SOL
- 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:Routine and systematic use of the LIBS
- TJ-II:Re-commissioning of Fast Ion Loss Detector
- TJ-II:In situ, real time boronization of TJ-II
Resolution of the experimental proposals Spring 2019
Experimental proposals, Autumn 2018
Deadline: October 10, 2018
- TJ-II:Influence of positive and negative density gradients in turbulent transport using the HIBP system
- TJ-II:Turbulence spreading and ECRH modulation experiments in the TJ-II stellarator
- TJ-II:Pellet Injections into TJ-II plasmas with core fast electron population
- TJ-II:Validation of ECCD predictions in TJ-II ECRH plasmas
- TJ-II:Er and turbulence asymmetries in low ripple configurations measured by Doppler reflectometry
- TJ-II:Real Time lithiatiation of TJII
- TJ-II:Radiation asymmetries and potential variations
Resolution of the experimental proposals Autumn 2018
Experimental proposals, Spring 2018
Deadline: March 7, 2018
- TJ-II:Observation of suprathermal ions with Neutral Particle Analyzers during electron cyclotron heating in the TJ-II stellarator
- 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:Validation of bootstrap predictions
- TJ-II:Transport analysis by means of the Transfer Entropy
- TJ-II:Understanding an often observed transient rise in core electron temperature during pellet injection into TJ-II plasmas
- TJ-II:Improving fuelling efficiency in TJ-II ECRH plasmas
- TJ-II:The influence of a core fast electron population on pellet fuelling efficiency in TJ-II
- TJ-II:Studies of LIquid Metal insertion in TJ-II
- TJ-II:Fast Camera studies with triple bundle
- TJ-II:Turbulence and radial electric field asymmetries in high iota magnetic configuration measured by Doppler reflectometry
- TJ-II:Influence of electron / ion root and ion mass on the radial and frequency structure of zonal flows in TJ-II
- TJ-II:Blobs vs streamers
- 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:Evaluation of Neoclassical transport correction terms in TJ-II
- TJ-II:Turbulence studies during transient pellet induced regimes
- TJ-II:Infrared thermography of the NBI Beam Stop: NBI contribution to plasma fuelling
- TJ-II:Dependence of NBI-driven Alfvén Eigenmodes on NBI energy and power
- TJ-II:ECRH system calibration
- TJ-II: Radiation asymmetries and potential variations
Resolution of the experimental proposals Spring 2018
Experimental proposals, Spring 2017
Deadline: January 26, 2017
- TJ-II:Search for physical mechanisms that lead to increase of turbulence following pellet injection
- TJ-II:Effect of pellet injection on the radial electric field profile of stellarators
- TJ-II:Excitation of zonal flow oscillations by energetic particles
- TJ-II:Radial electric field of low-magnetic-field low-collisionality NBI plasmas
- TJ-II:Comparison of transport of on-axis and off-axis ECH-heated plasmas
- TJ-II:Impurity injection by laser blow-off: influence of main ions charge/mass on impurity confinement and transport
- TJ-II:PelletFuelling
- TJ-II:Impurity density and potential asymmetries
- TJ-II:Investigation of turbulence spreading and information transfer in the TJ-II stellarator
- TJ-II:Role of isotope effect on biasing induced transitions in the TJ-II stellarator
- 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:Alfven Eigenmodes and biasing in TJ-II
- TJ-II:Potential asymmetries at low magnetic field
- TJ-II:NBI contribution to plasma fuelling
- TJ-II:Investigation of plasma asymmetries in the TJ-II stellarator and comparison with Gyrokinetic simulations
- TJ-II:Effect of ECRH on the characteristics of Alfven Eigenmodes activity
- TJ-II:Investigating the Alfvén Wave damping
- TJ-II:L-H Transition and Isotope Effect in low magnetic ripple configurations
- TJ-II:Measurements of radial correlation length and tilting of turbulent eddies by Radial Correlation Doppler Reflectometry
- TJ-II:Measurement of Te and ne of Blobs analyzing recycling helium emission in front of a poloidal limiter
- TJ-II:Potential Assymetries at low magnetic field
Resolution of the experimental proposals Spring 2017
See also
- TJ-II:Experimental program (not yet in use)
- Experimental programs for earlier years (2002-2017) (Intranet, password required)
- A new proposal page is created on the basis of this Proposal template. You do not need to view or modify it. Note for administrators: at the end of the template, the category of the proposal is specified (e.g, 'Autumn 2018'), which will determine to which list of proposals the proposal belongs.