Your search keyword '"McDermott R. M."' showing total 8 results

1. Poloidally resolved measurements of the perpendicular propagation velocity of density fluctuations in ASDEX Upgrade L-mode plasmas.

Author

Höfler, K, Happel, T, Hennequin, P, Stroth, U, Cavedon, M, Dux, R, Fischer, R, McDermott, R M, Poli, E, Schuster, C U, Wolfrum, E, and Team, the ASDEX Upgrade

Subjects

PLASMA confinement devices, PLASMA confinement, CHARGE exchange, VELOCITY, DOPPLER effect, MAGNETIC confinement

Abstract

Poloidal asymmetries of the propagation velocity of density fluctuations perpendicular to the magnetic field measured with Doppler reflectometry have been reported in several magnetic confinement plasma devices. Careful analysis of a large variety of different low confinement mode plasma scenarios performed at the ASDEX Upgrade tokamak does not reveal such an asymmetry outside the uncertainties of the evaluation process of the measurement data. The perpendicular velocity is investigated between mid-radius and the plasma edge and follows the poloidal dependence of the E × B drift velocity regardless of the probed turbulence structure size. Compared to measurements of a charge exchange recombination spectroscopy diagnostic this points towards a significantly smaller phase velocity than the E × B drift velocity. The analysis technique is presented in a representative discharge together with a sensitivity study of the impact of density, magneto hydrodynamic equilibrium and diagnostic alignment on the interpretation of the measured Doppler shift using ray tracing and thus on poloidal asymmetries. Three more highly different plasma scenarios with poloidally symmetric velocity profiles are shown. [ABSTRACT FROM AUTHOR]

Published

2021

2. Corrigendum: A novel method of studying the core boron transport at ASDEX Upgrade (2018 Plasma Phys. and Control. Fusion 60 085011).

Author

Bruhn, C, McDermott, R M, Angioni, C, Ameres, J, Bobkov, V, Cavedon, M, Dux, R, Kappatou, A, Lebschy, A, Manas, P, Ochoukov, R, and Team, the ASDEX Upgrade

Subjects

*PLASMA confinement, *BORON, *CONTROLLED fusion, *PLASMA physics, *CHARGE exchange

Published

2020

3. Charge exchange recombination spectroscopy at Wendelstein 7-X.

Author

Ford, O. P., Vanó, L., Alonso, J. A., Baldzuhn, J., Beurskens, M. N. A., Biedermann, C., Bozhenkov, S. A., Fuchert, G., Geiger, B., Hartmann, D., Jaspers, R. J. E., Kappatou, A., Langenberg, A., Lazerson, S. A., McDermott, R. M., McNeely, P., Neelis, T. W. C., Pablant, N. A., Pasch, E., and Rust, N.

Subjects

CHARGE exchange, SPECTROMETRY, RADIAL flow, NEUTRAL beams, VELOCITY measurements, ION migration & velocity

Abstract

The Charge Exchange Recombination Spectroscopy (CXRS) diagnostic has become a routine diagnostic on almost all major high temperature fusion experimental devices. For the optimized stellarator Wendelstein 7-X (W7-X), a highly flexible and extensive CXRS diagnostic has been built to provide high-resolution local measurements of several important plasma parameters using the recently commissioned neutral beam heating. This paper outlines the design specifics of the W7-X CXRS system and gives examples of the initial results obtained, including typical ion temperature profiles for several common heating scenarios, toroidal flow and radial electric field derived from velocity measurements, beam attenuation via beam emission spectra, and normalized impurity density profiles under some typical plasma conditions. [ABSTRACT FROM AUTHOR]

Published

2020

4. A fast edge charge exchange recombination spectroscopy system at the ASDEX Upgrade tokamak.

Author

Cavedon, M., Pütterich, T., Viezzer, E., Dux, R., Geiger, B., McDermott, R. M., Meyer, H., and Stroth, U.

Subjects

TOKAMAKS, CHARGE exchange, SPECTROMETERS, CHARGE coupled devices, EDGE-localized modes (Plasma instabilities), FLOW velocity, WAVELENGTHS, ATOMIC physics

Abstract

In this work, a new type of high through-put Czerny-Turner spectrometer has been developed which allows us to acquire multiple channels simultaneously with a repetition time on the order of 10 μs at different wavelengths. The spectrometer has been coupled to the edge charge exchange recombination system at ASDEX Upgrade which has been recently refurbished with new lines of sight. Construction features, calibration methods, and initial measurements obtained with the new setup will be presented. [ABSTRACT FROM AUTHOR]

Published

2017

5. Fast-ion losses induced by ELMs and externally applied magnetic perturbations in the ASDEX Upgrade tokamak.

Author

Garcia-Munoz, M, Äkäslompolo, S, Marne, P de, Dunne, M G, Dux, R, Evans, T E, Ferraro, N M, Fietz, S, Fuchs, C, Geiger, B, Herrmann, A, Hoelzl, M, Kurzan, B, Lazanyi, N, McDermott, R M, Nocente, M, Pace, D C, Rodriguez-Ramos, M, Shinohara, K, and Strumberger, E

Subjects

TIME-resolved measurements, FUSION reactor divertors, SPECTROMETRY, PLASMA beam injection heating, CHARGE exchange, THOMSON scattering

Abstract

Phase-space time-resolved measurements of fast-ion losses induced by edge localized modes (ELMs) and ELM mitigation coils have been obtained in the ASDEX Upgrade tokamak by means of multiple fast-ion loss detectors (FILDs). Filament-like bursts of fast-ion losses are measured during ELMs by several FILDs at different toroidal and poloidal positions. Externally applied magnetic perturbations (MPs) have little effect on plasma profiles, including fast-ions, in high collisionality plasmas with mitigated ELMs. A strong impact on plasma density, rotation and fast-ions is observed, however, in low density/collisionality and q95 plasmas with externally applied MPs. During the mitigation/suppression of type-I ELMs by externally applied MPs, the large fast-ion bursts observed during ELMs are replaced by a steady loss of fast-ions with a broad-band frequency and an amplitude of up to an order of magnitude higher than the neutral beam injection (NBI) prompt loss signal without MPs. Multiple FILD measurements at different positions, indicate that the fast-ion losses due to static 3D fields are localized on certain parts of the first wall rather than being toroidally/poloidally homogeneously distributed. Measured fast-ion losses show a broad energy and pitch-angle range and are typically on banana orbits that explore the entire pedestal/scrape-off-layer (SOL). Infra-red measurements are used to estimate the heat load associated with the MP-induced fast-ion losses. The heat load on the FILD detector head and surrounding wall can be up to six times higher with MPs than without 3D fields. When 3D fields are applied and density pump-out is observed, an enhancement of the fast-ion content in the plasma is typically measured by fast-ion D-alpha (FIDA) spectroscopy. The lower density during the MP phase also leads to a deeper beam deposition with an inward radial displacement of ≈2 cm in the maximum of the beam emission. Orbit simulations are used to test different models for 3D field equilibrium reconstruction including vacuum representation, the free boundary NEMEC code and the two-fluid M3D-C1 code which account for the plasma response. Guiding center simulations predict the maximum level of losses, ≈2.6%, with NEMEC 3D equilibrium. Full orbit simulations overestimate the level of losses in 3D vacuum fields with ≈15% of lost NBI ions. [ABSTRACT FROM AUTHOR]

Published

2013

6. Poloidal asymmetry of parallel rotation measured in ASDEX Upgrade.

Author

Pütterich, T., Viezzer, E., Dux, R., and McDermott, R. M.

Subjects

SYMMETRY (Physics), CHARGE exchange, SPECTRUM analysis, DEUTERIUM ions, BOUNDARY value problems, FLOW velocity

Abstract

The parallel flows in the H-mode edge of ASDEX Upgrade are investigated. Beam-based charge-exchange recombination spectroscopy (CXRS) provides the toroidal and poloidal impurity flow velocities at the outboard midplane, while a deuterium-puff based CXRS measurement provides the toroidal impurity flow velocities at the inboard midplane. In order to more easily compare these measurements to fundamental boundary conditions, a basic overview of flows on a flux surface is presented. The boundary conditions are given by the continuity equation and mean that the flow velocities on a flux surface must have a specific structure in order to provide zero divergence. At first, poloidal impurity density asymmetries and radial transport are neglected. Inside of the pedestal-top of the electron density profile the measurements agree with the postulated flow structure, while they do not agree at the pedestal itself. Here, an extension of the theoretical scheme, which allows for a poloidal impurity density asymmetry, suggests that the measured flow velocities could be explained by an excess impurity density at the inboard midplane. In detail, the inboard impurity density is postulated to be at the separatrix up to a factor of 6.5 higher than impurity density at the outboard midplane. Near the pedestal-top of the electron density, this asymmetry disappears. Radial transport is considered as an explanation for that asymmetry. A conclusive disentanglement of the driving mechanisms requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2012

7. Edge radial electric field structure and its connections to H-mode confinement in Alcator C-Mod plasmas.

Author

McDermott, R. M., Lipschultz, B., Hughes, J. W., Catto, P. J., Hubbard, A. E., Hutchinson, I. H., Granetz, R. S., Greenwald, M., LaBombard, B., Marr, K., Reinke, M. L., Rice, J. E., and Whyte, D.

Subjects

*ELECTRIC fields, *PLASMA confinement, *PLASMA gases, *IONS, *ELECTRONS, *CHARGE exchange

Abstract

High-resolution charge-exchange recombination spectroscopic measurements of B5+ ions have enabled the first spatially resolved calculations of the radial electric field (Er) in the Alcator C-Mod pedestal region [E. S. Marmar, Fusion Sci. Technol. 51, 261 (2006)]. These observations offer new challenges for theory and simulation and provide for important comparisons with other devices. Qualitatively, the field structure observed on C-Mod is similar to that on other tokamaks. However, the narrow high-confinement mode (H-mode) Er well widths (5 mm) observed on C-Mod suggest a scaling with machine size, while the observed depths (up to 300 kV/m) are unprecedented. Due to the strong ion-electron thermal coupling in the C-Mod pedestal, it is possible to infer information about the main ion population in this region. The results indicate that in H-mode the main ion pressure gradient is the dominant contributor to the Er well and that the main ions have significant edge flow. C-Mod H-mode data show a clear correlation between deeper Er wells, higher confinement plasmas, and higher electron temperature pedestal heights. However, improved L-mode (I-mode) plasmas exhibit energy confinement equivalent to that observed in similar H-mode discharges, but with significantly shallower Er wells. I-mode plasmas are characterized by H-mode-like energy barriers, but with L-mode-like particle barriers. The decoupling of energy and particle barrier formation makes the I-mode an interesting regime for fusion research and provides for a low collisionality pedestal without edge localized modes. [ABSTRACT FROM AUTHOR]

Published

2009

8. High-resolution charge exchange measurements at ASDEX Upgrade.

Author

Viezzer, E., Pütterich, T., Dux, R., McDermott, R. M., and the ASDEX Upgrade Team

Subjects

CHARGE exchange, INDUSTRIAL contamination, PLASMA diagnostics, CALIBRATION, WAVELENGTHS, ION temperature, SPECTRUM analysis

Abstract

The charge exchange recombination spectroscopy (CXRS) diagnostics at ASDEX Upgrade (AUG) have been upgraded and extended to provide high-resolution measurements of impurity ion temperature, density, and rotation profiles. The existing core toroidal CXRS diagnostic has been refurbished to increase the level of signal, thus enabling shorter exposure times down to 3.5 ms. Additional lines of sight provide more detailed profiles and enable simultaneous measurements of multiple impurities. In addition, a new CXRS system has been installed, which allows for the measurement of poloidal impurity ion rotation in the plasma edge with high temporal (1.9 ms) and spatial resolution (down to 5 mm). A new wavelength correction method has been implemented to perform in situ wavelength calibrations on a shot-to-shot basis. Absolute measurements of the poloidal impurity ion rotation with uncertainties smaller than 1.5 km/s have been obtained. Comparison of all the CXRS measurements provides a consistency check of the diagnostics and good agreement has been found for all of the CXRS systems. [ABSTRACT FROM AUTHOR]

Published

2012