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1

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Overview of physics studies on ASDEX Upgrade

Meyer, H. ; Angioni, C. ; Albert, C.G. ; [et al.]

IOP Publishing ; 2019

In: Nuclear Fusion Vol. 59, No. 11 ( 2019-11-01), p. 112014-

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In: Nuclear Fusion, IOP Publishing, Vol. 59, No. 11 ( 2019-11-01), p. 112014-

Abstract: The ASDEX Upgrade (AUG) programme, jointly run with the EUROfusion MST1 task force, continues to significantly enhance the physics base of ITER and DEMO. Here, the full tungsten wall is a key asset for extrapolating to future devices. The high overall heating power, flexible heating mix and comprehensive diagnostic set allows studies ranging from mimicking the scrape-off-layer and divertor conditions of ITER and DEMO at high density to fully non-inductive operation ( q 95 = 5.5, ) at low density. Higher installed electron cyclotron resonance heating power 6 MW, new diagnostics and improved analysis techniques have further enhanced the capabilities of AUG. Stable high-density H-modes with MW m −1 with fully detached strike-points have been demonstrated. The ballooning instability close to the separatrix has been identified as a potential cause leading to the H-mode density limit and is also found to play an important role for the access to small edge-localized modes (ELMs). Density limit disruptions have been successfully avoided using a path-oriented approach to disruption handling and progress has been made in understanding the dissipation and avoidance of runaway electron beams. ELM suppression with resonant magnetic perturbations is now routinely achieved reaching transiently . This gives new insight into the field penetration physics, in particular with respect to plasma flows. Modelling agrees well with plasma response measurements and a helically localised ballooning structure observed prior to the ELM is evidence for the changed edge stability due to the magnetic perturbations. The impact of 3D perturbations on heat load patterns and fast-ion losses have been further elaborated. Progress has also been made in understanding the ELM cycle itself. Here, new fast measurements of and E r allow for inter ELM transport analysis confirming that E r is dominated by the diamagnetic term even for fast timescales. New analysis techniques allow detailed comparison of the ELM crash and are in good agreement with nonlinear MHD modelling. The observation of accelerated ions during the ELM crash can be seen as evidence for the reconnection during the ELM. As type-I ELMs (even mitigated) are likely not a viable operational regime in DEMO studies of ‘natural’ no ELM regimes have been extended. Stable I-modes up to have been characterised using -feedback. Core physics has been advanced by more detailed characterisation of the turbulence with new measurements such as the eddy tilt angle—measured for the first time—or the cross-phase angle of and fluctuations. These new data put strong constraints on gyro-kinetic turbulence modelling. In addition, carefully executed studies in different main species (H, D and He) and with different heating mixes highlight the importance of the collisional energy exchange for interpreting energy confinement. A new regime with a hollow profile now gives access to regimes mimicking aspects of burning plasma conditions and lead to nonlinear interactions of energetic particle modes despite the sub-Alfvénic beam energy. This will help to validate the fast-ion codes for predicting ITER and DEMO.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ab18b8

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2019

detail.hit.zdb_id: 2037980-8

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2

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Progress from ASDEX Upgrade experiments in preparing the physics basis of ITER operation and DEMO scenario development

Stroth, U. ; Aguiam, D. ; Alessi, E. ; [et al.]

IOP Publishing ; 2022

In: Nuclear Fusion Vol. 62, No. 4 ( 2022-04-01), p. 042006-

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In: Nuclear Fusion, IOP Publishing, Vol. 62, No. 4 ( 2022-04-01), p. 042006-

Abstract: An overview of recent results obtained at the tokamak ASDEX Upgrade (AUG) is given. A work flow for predictive profile modelling of AUG discharges was established which is able to reproduce experimental H-mode plasma profiles based on engineering parameters only. In the plasma center, theoretical predictions on plasma current redistribution by a dynamo effect were confirmed experimentally. For core transport, the stabilizing effect of fast ion distributions on turbulent transport is shown to be important to explain the core isotope effect and improves the description of hollow low- Z impurity profiles. The L–H power threshold of hydrogen plasmas is not affected by small helium admixtures and it increases continuously from the deuterium to the hydrogen level when the hydrogen concentration is raised from 0 to 100%. One focus of recent campaigns was the search for a fusion relevant integrated plasma scenario without large edge localised modes (ELMs). Results from six different ELM-free confinement regimes are compared with respect to reactor relevance: ELM suppression by magnetic perturbation coils could be attributed to toroidally asymmetric turbulent fluctuations in the vicinity of the separatrix. Stable improved confinement mode plasma phases with a detached inner divertor were obtained using a feedback control of the plasma β . The enhanced D α H-mode regime was extended to higher heating power by feedback controlled radiative cooling with argon. The quasi-coherent exhaust regime was developed into an integrated scenario at high heating power and energy confinement, with a detached divertor and without large ELMs. Small ELMs close to the separatrix lead to peeling-ballooning stability and quasi continuous power exhaust. Helium beam density fluctuation measurements confirm that transport close to the separatrix is important to achieve the different ELM-free regimes. Based on separatrix plasma parameters and interchange-drift-Alfvén turbulence, an analytic model was derived that reproduces the experimentally found important operational boundaries of the density limit and between L- and H-mode confinement. Feedback control for the X-point radiator (XPR) position was established as an important element for divertor detachment control. Stable and detached ELM-free phases with H-mode confinement quality were obtained when the XPR was moved 10 cm above the X-point. Investigations of the plasma in the future flexible snow-flake divertor of AUG by means of first SOLPS-ITER simulations with drifts activated predict beneficial detachment properties and the activation of an additional strike point by the drifts.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ac207f

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2022

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3

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Overview of progress in European medium sized tokamaks towards an integrated plasma-edge/wall solution a

Meyer, H. ; Eich, T. ; Beurskens, M. ; [et al.]

IOP Publishing ; 2017

In: Nuclear Fusion Vol. 57, No. 10 ( 2017-10-01), p. 102014-

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In: Nuclear Fusion, IOP Publishing, Vol. 57, No. 10 ( 2017-10-01), p. 102014-

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/aa6084

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2017

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4

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Dependence on plasma shape and plasma fueling for small edge-localized mode regimes in TCV and ASDEX Upgrade

Labit, B. ; Eich, T. ; Harrer, G.F. ; [et al.]

IOP Publishing ; 2019

In: Nuclear Fusion Vol. 59, No. 8 ( 2019-08-01), p. 086020-

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In: Nuclear Fusion, IOP Publishing, Vol. 59, No. 8 ( 2019-08-01), p. 086020-

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ab2211

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2019

detail.hit.zdb_id: 2037980-8

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5

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Overview of ASDEX Upgrade results

Stroth, U. ; Adamek, J. ; Aho-Mantila, L. ; [et al.]

IOP Publishing ; 2013

In: Nuclear Fusion Vol. 53, No. 10 ( 2013-10-01), p. 104003-

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In: Nuclear Fusion, IOP Publishing, Vol. 53, No. 10 ( 2013-10-01), p. 104003-

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/0029-5515/53/10/104003

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2013

detail.hit.zdb_id: 2037980-8

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6

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Cherenkov probes and runaway electrons diagnostics

Kwiatkowski, R. ; Rabinski, M. ; Sadowski, M. J. ; [et al.]

Springer Science and Business Media LLC ; 2021

In: The European Physical Journal Plus Vol. 136, No. 10 ( 2021-10)

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In: The European Physical Journal Plus, Springer Science and Business Media LLC, Vol. 136, No. 10 ( 2021-10)

Abstract: The beams of fast runaway electrons (RE), which are often produced during tokamak discharges, are particularly dangerous and can induce serious damages of the vacuum vessel and internal components of the machine. The proper and fast diagnostics of RE beams is essential for controlling the discharge, e.g., by early mitigation of disruptions and potentially dangerous RE beams. The diagnostics of RE beams is usually based on measurements of the radiation emitted either by these electrons, or as a result of their interactions with plasma and/or vessel walls. Such a radiation is usually recorded by the means of probes placed outside the vacuum vessel. The method developed by our team is based on the probe located inside the vacuum vessel. The probe can be used to detect highly localized RE bunches and to determine their spatial and temporal characteristics. During last few years, the NCBJ team have developed and used the RE diagnostics based on the Cherenkov effect observed in diamond radiators coupled with fast photomultipliers. During the investigated discharges, the probe was inserted into the vacuum vessel, and its head was placed at the plasma edge, where fast RE are expected. A correlation between signals recorded using our probes and other diagnostics, e.g., hard x-ray signals, was also studied. In this paper, we present recent results of the RE measurements by means of Cherenkov probes, which were performed in the COMPASS and TCV tokamaks.

Type of Medium: Online Resource

ISSN: 2190-5444

URL: Article

DOI: 10.1140/epjp/s13360-021-01844-8

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2021

detail.hit.zdb_id: 2595693-0

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7

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Overview of ASDEX Upgrade results

Kallenbach, A. ; Adamek, J. ; Aho-Mantila, L. ; [et al.]

IOP Publishing ; 2011

In: Nuclear Fusion Vol. 51, No. 9 ( 2011-09-01), p. 094012-

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In: Nuclear Fusion, IOP Publishing, Vol. 51, No. 9 ( 2011-09-01), p. 094012-

Abstract: The ASDEX Upgrade programme is directed towards physics input to critical elements of the ITER design and the preparation of ITER operation, as well as addressing physics issues for a future DEMO design. After the finalization of the tungsten coating of the plasma facing components, the re-availability of all flywheel-generators allowed high-power operation with up to 20 MW heating power at I p up to 1.2 MA. Implementation of alternative ECRH schemes (140 GHz O2- and X3-mode) facilitated central heating above n e = 1.2 × 10 20 m −3 and low q 95 operation at B t = 1.8 T. Central O2-mode heating was successfully used in high P / R discharges with 20 MW total heating power and divertor load control with nitrogen seeding. Improved energy confinement is obtained with nitrogen seeding both for type-I and type-III ELMy conditions. The main contributor is increased plasma temperature, no significant changes in the density profile have been observed. This behaviour may be explained by higher pedestal temperatures caused by ion dilution in combination with a pressure limited pedestal and hollow nitrogen profiles. Core particle transport simulations with gyrokinetic calculations have been benchmarked by dedicated discharges using variations of the ECRH deposition location. The reaction of normalized electron density gradients to variations of temperature gradients and the T e / T i ratio could be well reproduced. Doppler reflectometry studies at the L–H transition allowed the disentanglement of the interplay between the oscillatory geodesic acoustic modes, turbulent fluctuations and the mean equilibrium E × B flow in the edge negative E r well region just inside the separatrix. Improved pedestal diagnostics revealed also a refined picture of the pedestal transport in the fully developed H-mode type-I ELM cycle. Impurity ion transport turned out to be neoclassical in between ELMs. Electron and energy transport remain anomalous, but exhibit different recovery time scales after an ELM. After recovery of the pre-ELM profiles, strong fluctuations develop in the gradients of n e and T e . The occurrence of the next ELM cannot be explained by the local current diffusion time scale, since this turns out to be too short. Fast ion losses induced by shear Alfvén eigenmodes have been investigated by time-resolved energy and pitch angle measurements. This allowed the separation of the convective and diffusive loss mechanisms.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/0029-5515/51/9/094012

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2011

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8

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Overview of the TCV tokamak experimental programme

Reimerdes, H. ; Agostini, M. ; Alessi, E. ; [et al.]

IOP Publishing ; 2022

In: Nuclear Fusion Vol. 62, No. 4 ( 2022-04-01), p. 042018-

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In: Nuclear Fusion, IOP Publishing, Vol. 62, No. 4 ( 2022-04-01), p. 042018-

Abstract: The tokamak à configuration variable (TCV) continues to leverage its unique shaping capabilities, flexible heating systems and modern control system to address critical issues in preparation for ITER and a fusion power plant. For the 2019–20 campaign its configurational flexibility has been enhanced with the installation of removable divertor gas baffles, its diagnostic capabilities with an extensive set of upgrades and its heating systems with new dual frequency gyrotrons. The gas baffles reduce coupling between the divertor and the main chamber and allow for detailed investigations on the role of fuelling in general and, together with upgraded boundary diagnostics, test divertor and edge models in particular. The increased heating capabilities broaden the operational regime to include T e / T i ∼ 1 and have stimulated refocussing studies from L-mode to H-mode across a range of research topics. ITER baseline parameters were reached in type-I ELMy H-modes and alternative regimes with ‘small’ (or no) ELMs explored. Most prominently, negative triangularity was investigated in detail and confirmed as an attractive scenario with H-mode level core confinement but an L-mode edge. Emphasis was also placed on control, where an increased number of observers, actuators and control solutions became available and are now integrated into a generic control framework as will be needed in future devices. The quantity and quality of results of the 2019–20 TCV campaign are a testament to its successful integration within the European research effort alongside a vibrant domestic programme and international collaborations.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ac369b

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2022

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9

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Physics research on the TCV tokamak facility: from conventional to alternative scenarios and beyond

Coda, S. ; Agostini, M. ; Albanese, R. ; [et al.]

IOP Publishing ; 2019

In: Nuclear Fusion Vol. 59, No. 11 ( 2019-11-01), p. 112023-

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In: Nuclear Fusion, IOP Publishing, Vol. 59, No. 11 ( 2019-11-01), p. 112023-

Abstract: The research program of the TCV tokamak ranges from conventional to advanced-tokamak scenarios and alternative divertor configurations, to exploratory plasmas driven by theoretical insight, exploiting the device’s unique shaping capabilities. Disruption avoidance by real-time locked mode prevention or unlocking with electron-cyclotron resonance heating (ECRH) was thoroughly documented, using magnetic and radiation triggers. Runaway generation with high- Z noble-gas injection and runaway dissipation by subsequent Ne or Ar injection were studied for model validation. The new 1 MW neutral beam injector has expanded the parameter range, now encompassing ELMy H-modes in an ITER-like shape and nearly non-inductive H-mode discharges sustained by electron cyclotron and neutral beam current drive. In the H-mode, the pedestal pressure increases modestly with nitrogen seeding while fueling moves the density pedestal outwards, but the plasma stored energy is largely uncorrelated to either seeding or fueling. High fueling at high triangularity is key to accessing the attractive small edge-localized mode (type-II) regime. Turbulence is reduced in the core at negative triangularity, consistent with increased confinement and in accord with global gyrokinetic simulations. The geodesic acoustic mode, possibly coupled with avalanche events, has been linked with particle flow to the wall in diverted plasmas. Detachment, scrape-off layer transport, and turbulence were studied in L- and H-modes in both standard and alternative configurations (snowflake, super-X, and beyond). The detachment process is caused by power ‘starvation’ reducing the ionization source, with volume recombination playing only a minor role. Partial detachment in the H-mode is obtained with impurity seeding and has shown little dependence on flux expansion in standard single-null geometry. In the attached L-mode phase, increasing the outer connection length reduces the in–out heat-flow asymmetry. A doublet plasma, featuring an internal X-point, was achieved successfully, and a transport barrier was observed in the mantle just outside the internal separatrix. In the near future variable-configuration baffles and possibly divertor pumping will be introduced to investigate the effect of divertor closure on exhaust and performance, and 3.5 MW ECRH and 1 MW neutral beam injection heating will be added.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ab25cb

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2019

detail.hit.zdb_id: 2037980-8

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10

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Experimental turbulence studies for gyro-kinetic code validation using advanced microwave diagnostics

Stroth, U. ; Bañón Navarro, A. ; Conway, G.D. ; [et al.]

IOP Publishing ; 2015

In: Nuclear Fusion Vol. 55, No. 8 ( 2015-08-01), p. 083027-

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In: Nuclear Fusion, IOP Publishing, Vol. 55, No. 8 ( 2015-08-01), p. 083027-

Abstract: For a comprehensive comparison with theoretical models and advanced numerical turbulence simulations, a large spectrum of fluctuation parameters was measured on the devices ASDEX Upgrade, TCV, and Tore-Supra. Radial profiles of scale-resolved turbulence levels in H-mode discharges are measured and compared with GENE simulations in the transition range from ion-temperature-gradient to trapped-electron-mode turbulence. Correlation reflectometry is used to study the microscopic structure of turbulence and GAMs in discharges where poloidal flow damping was varied by means of variations of the shape of the poloidal plasma cross-section and collisionality. Full-wave codes and synthetic diagnostics are applied for the interpretation of the data.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/0029-5515/55/8/083027

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2015

detail.hit.zdb_id: 2037980-8

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