1,635 research outputs found
Overview of ASDEX Upgrade results
The ASDEX Upgrade (AUG) 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. Since 2015, AUG is equipped with a new pair of 3-strap ICRF antennas, which were designed for a reduction of tungsten release during ICRF operation. As predicted, a factor two reduction on the ICRF-induced W plasma content could be achieved by the reduction of the sheath voltage at the antenna limiters via the compensation of the image currents of the central and side straps in the antenna frame. There are two main operational scenario lines in AUG. Experiments with low collisionality, which comprise current drive, ELM mitigation/suppression and fast ion physics, are mainly done with freshly boronized walls to reduce the tungsten influx at these high edge temperature conditions. Full ELM suppression and non-inductive operation up to a plasma current of Ip = 0.8 MA could be obtained at low plasma density. Plasma exhaust is studied under conditions of high neutral divertor pressure and separatrix electron density, where a fresh boronization is not required. Substantial progress could be achieved for the understanding of the confinement degradation by strong D puffing and the improvement with nitrogen or carbon seeding. Inward/outward shifts of the electron density profile relative to the temperature profile effect the edge stability via the pressure profile changes and lead to improved/decreased pedestal performance. Seeding and D gas puffing are found to effect the core fueling via changes in a region of high density on the high field side (HFSHD). The integration of all above mentioned operational scenarios will be feasible and naturally obtained in a large device where the edge is more opaque for neutrals and higher plasma temperatures provide a lower collisionality. The combination of exhaust control with pellet fueling has been successfully demonstrated. High divertor enrichment values of nitrogen En > 10 have been obtained during pellet injection, which is a prerequisite for the simultaneous achievement of good core plasma purity and high divertor radiation levels. Impurity accumulation observed in the all-metal AUG device caused by the strong neoclassical inward transport of tungsten in the pedestal is expected to be relieved by the higher neoclassical temperature screening in larger devices.This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014-2018
under grant agreement number 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission.Peer ReviewedPostprint (published version
Non-linear effects in electron cyclotron current drive applied for the stabilization of neoclassical tearing modes
Due to the smallness of the volumes associated with the flux surfaces around
the O-point of a magnetic island, the electron cyclotron power density applied
inside the island for the stabilization of neoclassical tearing modes (NTMs)
can exceed the threshold for non-linear effects as derived previously by Harvey
et al, Phys. Rev. Lett. 62 (1989) 426. We study the non-linear electron
cyclotron current drive (ECCD) efficiency through bounce-averaged, quasi-linear
Fokker-Planck calculations in the magnetic geometry as created by the islands.
The calculations are performed for the parameters of a typical NTM
stabilization experiment on ASDEX Upgrade. A particular feature of these
experiments is that the rays of the EC wave beam propagate tangential to the
flux surfaces in the power deposition region. The calculations show significant
non-linear effects on the ECCD efficiency, when the ECCD power is increased
from its experimental value of 1 MW to a larger value of 4 MW. The nonlinear
effects are largest in case of locked islands or when the magnetic island
rotation period is longer than the collisional time scale. The non-linear
effects result in an overall reduction of the current drive efficiency for this
case with absorption of the EC power on the low field side of the electron
cyclotron resonance layer. As a consequence of the non-linear effects, also the
stabilizing effect of the ECCD on the island is reduced from linear
expectations
Adjoint Monte Carlo Simulation of Fusion Product Activation Probe Experiment in ASDEX Upgrade tokamak
The activation probe is a robust tool to measure flux of fusion products from
a magnetically confined plasma. A carefully chosen solid sample is exposed to
the flux, and the impinging ions transmute the material making it radioactive.
Ultra-low level gamma-ray spectroscopy is used post mortem to measure the
activity and, thus, the number of fusion products.
This contribution presents the numerical analysis of the first measurement in
the ASDEX Upgrade tokamak, which was also the first experiment to measure a
single discharge. The ASCOT suite of codes was used to perform adjoint/reverse
Monte Carlo calculations of the fusion products. The analysis facilitates, for
the first time, a comparison of numerical and experimental values for
absolutely calibrated flux. The results agree to within a factor of about two,
which can be considered a quite good result considering the fact that all
features of the plasma cannot be accounted in the simulations.
Also an alternative to the present probe orientation was studied. The results
suggest that a better optimized orientation could measure the flux from a
significantly larger part of the plasma.Comment: Contribution in 1st EPS Conference on Plasma Diagnostics. First two
versions are for PoS(ECPD 2015)055. This 3rd version was accepted for
publishing in Journal of Instrumentatio
Divertor Heat Load in ASDEX Upgrade L-Mode in Presence of External Magnetic Perturbation
Power exhaust is one of the major challenges for a future fusion device.
Applying a non-axisymmetric external magnetic perturbation is one technique
that is studied in order to mitigate or suppress large edge localized modes
which accompany the high confinement regime in tokamaks. The external magnetic
perturbation brakes the axisymmetry of a tokamak and leads to a 2D heat flux
pattern on the divertor target. The 2D heat flux pattern at the outer divertor
target is studied on ASDEX Upgrade in stationary L-Mode discharges. The
amplitude of the 2D characteristic of the heat flux depends on the alignment
between the field lines at the edge and the vacuum response of the applied
magnetic perturbation spectrum. The 2D characteristic reduces with increasing
density. The increasing divertor broadening with increasing density is
proposed as the main actuator. This is supported by a generic model using field
line tracing and the vacuum field approach that is in quantitative agreement
with the measured heat flux. The perturbed heat flux, averaged over a full
toroidal rotation of the magnetic perturbation, is identical to the
non-perturbed heat flux without magnetic perturbation. The transport
qualifiers, power fall-off length and divertor broadening , are
the same within the uncertainty compared to the unperturbed reference. No
additional cross field transport is observed.Comment: 23 pages, 28 figures. This is an author-created, un-copyedited
version of an article submitted for publication in Plasma Physics and
Controlled Fusion. IoP Publishing Ltd is not responsible for any errors or
omissions in this version of the manuscript or any version derived from i
Type-I ELM mode structure observed by divertor thermography in ASDEX Upgrade
In the ASDEX Upgrade tokamak, power deposition structures on the outer divertor target surfaces during type-I Edge Localised Modes (ELMs) have been discovered by infra red thermography. These structures are radially and toroidally separated non-axisymmetric spirals. They are most obvious about 80 mm away from the toroidal symmetric strike zone on the target plates. The spiral structure of the power load is caused by a toroidally structured energy release in the outer midplane during the non-linear phase of a type-I ELM cycle as shown by basic field line tracing. The resulting structures correspond to values around z(m) n ≈ 12 and m ≈ 50 (for q95 ≈ 4)
The ASDEX Upgrade UTDC and DIO cards - A family of PCI/cPCI devices for real-time DAQ under Solaris
A Universal Time to Digital Converter (UTDC) and a Digital I/O (DIO) card have been built to purpose for the new ASDEX Upgrade control system, the Thomson Scattering diagnostic, a renovation of the Magnetic Measurement, and a couple of other diagnostics requiring renewed timing or real-time features. The salient features of these cards will be presented, and we will show how synergy in hardware and software development could be achieved. Examples of real-life applications in diagnostics will be given. Measurements of the real-time behaviour of those diagnostics show a low jitter of the Solaris operating system and highly reliable function under moderate real-time conditions. Future extension of the usability of this family of cards will be described as an outlook. Topic: Diagnostic Control and Data Acquisitio
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