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Overview of the TCV tokamak experimental programme

NUCLEAR FUSION (2022)

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H-mode scrape-off layer power width in the TCV tokamak

R. Maurizio et al.

Summary: This study tests empirical scaling laws based on data from six tokamaks on an additional device, the TCV tokamak. It is found that reasonable agreement with multi-device scaling laws is only achieved when including both the power crossing the separatrix and the Greenwald density fraction as regression parameters. The exhaust channel width in TCV is 2 to 3 times smaller than in spherical tokamaks for the same value of the poloidal field, indicating the need for explicit aspect ratio dependence in the scaling laws when including TCV data.

NUCLEAR FUSION (2021)

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Initial TCV operation with a baffled divertor

H. Reimerdes et al.

Summary: The TCV tokamak is undergoing an upgrade with the installation of modular and removable gas baffles to decrease coupling between the divertor and plasma core. Experimental results show that the baffled divertor is compatible with various configurations, while also confirming simulations by demonstrating an increase in neutral pressure.

NUCLEAR FUSION (2021)

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Article Physics, Fluids & Plasmas

Suppression of first-wall interaction in negative triangularity plasmas on TCV

W. Han et al.

Summary: Recent experiments in tokamaks have shown that magnetically confined fusion plasmas with negative triangularity exhibit better confinement compared to those with positive triangularity. This improvement in confinement may be attributed to a reduction in fluctuations within the plasma core. Furthermore, measurements in the scrape-off layer (SOL) have revealed a strong reduction in fluctuation amplitudes in plasmas with negative triangularity, indicating almost complete suppression of plasma interaction with the main-chamber first-wall.

NUCLEAR FUSION (2021)

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Article Physics, Fluids & Plasmas

Parallel convection and E x B drifts in the TCV snowflake divertor and their effects on target heat-fluxes

C. K. Tsui et al.

Summary: Parallel convection and E x B drifts work together in redistributing heat in the LFS SF-, showing dominance over heat conduction near the secondary X-point. Pressure profiles at the divertor entrance are strongly affected by the position of the secondary X-point and magnetic field direction, with pressure drops of up to 50% between the OMP and the divertor entrance. Eletron temperature and density profiles, as well as radial turbulent fluxes measured at the OMP, are largely unaffected by changes in divertor geometry.

NUCLEAR FUSION (2021)

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A novel hydrogenic spectroscopic technique for inferring the role of plasma-molecule interaction on power and particle balance during detached conditions

K. Verhaegh et al.

Summary: This study investigates a new Balmer Spectroscopy technique for Plasma-Molecule Interaction, demonstrating the substantial impact of plasma-molecule interactions on Hα emission during detachment and Molecular Activated Recombination. The results of the BaSPMI technique analysis suggest that the hydrogenic line series can be significantly influenced by plasma-molecule interactions, which has important implications for diagnosing divertor plasmas using atomic hydrogen spectroscopy.

PLASMA PHYSICS AND CONTROLLED FUSION (2021)

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Tomographic reconstruction of the runaway distribution function in TCV using multispectral synchrotron images

T. A. Wijkamp et al.

Summary: This study investigates synchrotron radiation observed in a quiescent Tokamak TCV runaway discharge. Through the SART algorithm, the spatial and momentum distribution of high momentum, high pitch angle particles is reconstructed. Experimental estimates play a crucial role in verifying and refining runaway avoidance and mitigation strategies.

NUCLEAR FUSION (2021)

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Plasma confinement mode classification using a sequence-to-sequence neural network with attention

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Summary: In tokamak experiments, it was found that deep learning methods can automatically detect confinement modes, with a new neural network model proposed to improve upon the traditional conv-LSTM model. The new sequence-to-sequence model outperforms the conv-LSTM in performance, achieving excellent results on both training and test data.

NUCLEAR FUSION (2021)

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Nonlocal effects in negative triangularity TCV plasmas

G. Merlo et al.

Summary: Global gradient driven gyrokinetic simulations using the GENE code were used to study Tokamak plasmas with negative triangularity. It was found that negative triangularity can improve electron energy confinement and reduce electron density fluctuations, with nonlocal effects playing a role in heat flux estimation. Despite the sensitivity of turbulence level to input parameters, global effects are crucial in reconciling simulations and experiments.

PLASMA PHYSICS AND CONTROLLED FUSION (2021)

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Real-time feedback control of the impurity emission front in tokamak divertor plasmas

T. Ravensbergen et al.

Summary: The challenge of heat and particle exhaust remains a major issue in magnetic confinement thermonuclear fusion. Controlled 'plasma detachment' is necessary to reduce fluxes onto the divertor. The authors report a systematic approach towards achieving this critical need through feedback control of impurity emission front locations and its experimental demonstration.

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Broadening of the power fall-off length in a high density, high confinement H-mode regime in ASDEX Upgrade

M. Faitsch et al.

Summary: Thermography measurements at ASDEX Upgrade show an increase in power fall-off length in a high density, high confinement H-mode regime, correlated to an increased filament detection rate and pressure close to the separatrix. This broadening decreases peak heat flux and leads to continuous transport into the scrape-off layer and onto the divertor.

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Impact of the new TCV baffled divertor upgrade on pedestal structure and performance

U. A. Sheikh et al.

Summary: During the baffled divertor upgrade at TCV in early 2019, a new set of carbon tiles, neutral beam heating optics, and gas baffles were installed, leading to improved pedestal performance at high divertor neutral pressure. Analysis of the pedestal structure revealed a strong correlation between pedestal performance and the density pedestal position before and after the upgrade.

NUCLEAR MATERIALS AND ENERGY (2021)

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A study of the influence of plasma-molecule interactions on particle balance during detachment

Kevin Verhaegh et al.

Summary: This work provides experimental insights into the impact of plasma-molecule interactions on target ion flux decrease during divertor detachment. Molecular Activated Recombination (MAR) is found to be a significant contributor, with a factor of 5 larger than Electron-Ion Recombination (EIR). Further research is needed on Molecular Activated Ionisation (MAI) due to its uncertainty.

NUCLEAR MATERIALS AND ENERGY (2021)

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Preliminary analysis of alternative divertors for DEMO

F. Militello et al.

Summary: The physics and engineering analysis of alternative divertor configurations show that they can provide margin and resilience against large power fluctuations. However, the engineering of these configurations faces intrinsic difficulties, especially in balancing structural solidity with component accessibility. A hybrid divertor solution integrating aspects of the X- and Super-X divertors is proposed as a possible solution to these challenges.

NUCLEAR MATERIALS AND ENERGY (2021)

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The EU strategy for solving the DEMO exhaust problem

H. Zohm et al.

Summary: The EU has developed a strategy to address exhaust challenges for the DEMO device. This strategy includes a conventional approach and the development of alternatives as risk mitigation. The EUROfusion programme has initiated upgrades to existing devices and plans to engage in new device construction, while theory and modelling efforts are increased to ensure safe extrapolation to DEMO.

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Millimeter-wave beam scattering and induced broadening by plasma turbulence in the TCV tokamak

O. Chellai et al.

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Theory-based scaling laws of near and far scrape-off layer widths in single-null L-mode discharges

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Summary: This study analytically derived theory-based scaling laws for the near and far scrape-off layer (SOL) widths in L-mode diverted tokamak discharges using a two-fluid model. The results were compared to simulations and experimental measurements, showing good agreement and highlighting the need for a large multi-machine database for far SOL decay lengths.

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A fast-reciprocating probe array for two-dimensional measurements in the divertor region of the Tokamak a configuration variable

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Summary: This study presents the construction and commissioning of a fast-moving reciprocating divertor Langmuir probe array on the TCV, which provides unprecedented two-dimensional measurements of plasma properties. The probe design is compact and resilient, withstanding high temperatures and accelerations, and has successfully conducted measurements in numerous plasma discharges.

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SOLPS-ITER validation with TCV L-mode discharges

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High resolution density pedestal measurements during edge localized modes by short-pulse reflectometry in the TCV tokamak

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Divertor closure effects on the TCV boundary plasma

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