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15 results on '"Burhenn, Rainer"'

1. Comments to Marvel Fusions Mixed Fuels Reactor Concept

Author

Lackner, Karl, Burhenn, Rainer, Fietz, Sina, and von Müller, Alexander

Subjects
Physics - Plasma Physics
Abstract

Nanostructured solid boron-hydrogen compounds have been suggested as target and fuel for laser fusion, offering improved laser-plasma coupling, avoiding cryogenic fuel handling and fuel pre-compression and ultimately allowing a transit from DT- to aneutronic pB- fusion power production. We describe the scaling of the different energy loss channels ({\alpha}-particle escape, bremsstrahlung, hydrodynamic expansion work, electron heat conduction) with mixed fuel composition using partial inverse gains (Q's) which allow a simple superposition of losses. This highlights in particular the negative synergy between these loss-channels for such mixed fuels: the dominance of bremsstrahlung over fusion power at low temperatures forces a shift of operation to higher ones, where the plasma gets more transparent to {\alpha}-particles, and hydrodynamic and heat conduction losses increase strongly. The use of mixed fuels therefore does not eliminate the need for strong precompression of the fuel: in fact, it renders achieving burning plasma conditions much more difficult, if not impossible. A recent suggestion to use tamping of the fuel by cladding with a heavy metal would only reduce hydrodynamic expansion losses significantly if the cladding could cover most of the fuel surface, in competition with access to laser radiation. But even if tamping were perfect, this would not reduce the remaining three loss channels - in fact it would have a negative effect on burn propagation, as the escaping energy would not heat surrounding fuel, but only the cladding material., Comment: 19 pages, 9 figures; affiliation of authors added in revised version

Published
2023

2. Comments on 'Volume ignition of mixed fuel' by H. Ruhl and G. Korn (Marvel Fusion, Munich)

Author

Lackner, Karl, Burhenn, Rainer, Fietz, Sina, and von Müller, Alexander

Subjects
Physics - Plasma Physics
Abstract

In the most recent note on Marvel Fusion's concept for a laser driven pB reactor without compression, Ruhl and Korn consider the volumetric energy balance of fusion reactions vs. bremsstrahlung losses in a mixed fuel (DT and pB) environment and claim the satisfaction of this necessary "ideal ignition" condition. Their results are based, however, on improper assumptions about the deposition of fusion energy in the plasma. Correcting for them, we show that the quoted composition of their fuel (a solid boron composite, binding high concentrations of D, T and p) would actually preclude ignition due to the high bremsstrahlung losses associated with the presence of boron. To facilitate ignition, Ruhl and Korn also consider the reduction of the bremsstrahlung losses by confining the radiation in the optically thin fuel region by high Z walls. They suggest to preload this region with radiation so that the radiation temperature equals approximately that of the plasma constituents $T_{r} \approx T_{e} \approx T_{i}$. We show that in this set-up the radiation energy - neglected in these considerations - would, however, vastly exceed the thermal energy of the plasma and actually dominate the ignition energy requirements., Comment: 6 pages, 1 figure

Published
2023

7. First neutral beam experiments on Wendelstein 7-X

Author

Lazerson, Samuel A., primary, Ford, Oliver, additional, Äkaslompolö, Simppa, additional, Bozhenkov, Sergey, additional, Slaby, Christoph, additional, Vanó, Lilla, additional, Spanier, Annabelle, additional, McNeely, Paul, additional, Rust, Norbert, additional, Hartmann, Dirk, additional, Poloskei, Peter, additional, Buttenschoゆ, Birger, additional, Burhenn, Rainer, additional, Tamura, Naoki, additional, Bussiahn, Rene, additional, Wegner, Thomas, additional, Drevlak, Michael, additional, Turkin, Yuriy, additional, Ogawa, Kunihiro, additional, Knauer, Jens, additional, Brunner, Kai Jakob, additional, Pasch, Ekkehard, additional, Beurskens, Marc, additional, Damm, Hannes, additional, Fuchert, Golo, additional, Nelde, Philipp, additional, Scott, Evan, additional, Pablant, Novimir, additional, Langenberg, Andreas, additional, Traverso, Peter, additional, Valson, Pranay, additional, Hergenhahn, Uwe, additional, Pavone, Andrea, additional, Rahbarnia, Kian, additional, Andreeva, Tamara, additional, Schilling, Jonathan, additional, Brandt, Christian, additional, Neuner, Ulrich, additional, Thomsen, Henning, additional, Chaudhary, Neha, additional, Höefel, Udo, additional, Stange, Torsten, additional, Weir, Gavin, additional, Marushchenko, Nikolai, additional, Jakubowski, Marcin, additional, Ali, Adnan, additional, Gao, Yu, additional, Niemann, Holger, additional, Puig Sitjes, Aleix, additional, Koenig, Ralf, additional, Schroeder, Ralf, additional, den Harder, Niek, additional, Heinemann, Bernd, additional, Hopf, Christian, additional, Riedl, Rudolf, additional, Wolf, Robert C., additional, and W7-X Team, the, additional

Published
2021
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8. Impact of the temperature ratio on turbulent impurity transport in Wendelstein 7-X

Author

Wegner, Thomas, primary, Alcuson, Jorge Alberto, additional, Geiger, Benedikt, additional, von Stechow, Adrian, additional, Xanthopoulos, Pavlos, additional, Angioni, Clemente, additional, Beurskens, Marc N A, additional, Böttger, Lukas, additional, Bozhenkov, Sergey A, additional, Brunner, Kai Jakob, additional, Burhenn, Rainer, additional, Buttenschön, Birger, additional, Damm, Hannes, additional, Edlund, Eric M, additional, Ford, Oliver P, additional, Fuchert, Golo, additional, Grulke, Olaf, additional, Huang, Zhouji, additional, Knauer, Jens P, additional, Kunkel, Falk, additional, Langenberg, Andreas, additional, Pablant, Novimir Antoniuk, additional, Pasch, Ekkehard, additional, Rahbarnia, Kian, additional, Schilling, Jonathan, additional, Thomsen, H, additional, and Vano, Lilla, additional

Published
2020
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9. Modelling of expected B, C, N and O Lyman-α line intensities emitted from W7-X plasmas and measured by means of the W7-X light impurity monitor system.

Author

Fornal, Tomasz, Kubkowska, Monika, Książek, Ireneusz, Stańczak, Dominik, Jabłoński, Sławomir, and Burhenn, Rainer

Abstract

The “C/O Monitor” for Wendelstein 7-X (W7-X) is a dedicated light impurity XUV spectrometer intended to measure Lyman-α transitions of hydrogen-like ions of four low-Z impurities—boron (4.9 nm), carbon (3.4 nm), nitrogen (2.5 nm) and oxygen (1.9 nm). Since the discussed diagnostic will deliver continuous information about the line intensities, it is crucial to understand the origin of the obtained signals with respect to the experimental plasma conditions (electron temperature and density). This, however, might be difficult because of the broad acceptance angle of the spectrometer and irregular shape of the plasma edge or SOL where the radiation is expected to mostly come from, depending on the plasma temperature. For that reason, numerous analyses assuming various ranges of electron density and temperature profiles of the W7-X plasmas have been performed (assuming corona equilibrium and neglecting impurity transport processes). The aim of this work is to estimate the expected radiant flux and determine the sensitivity of the system on impurity-level changes. It will allow to improve understanding between measured signal and impurity concentration. [ABSTRACT FROM AUTHOR]

Published
2021
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10. XUV diagnostic to monitor H-like emission from B, C, N, and O for the W7-X stellarator.

Author

Fornal, Tomasz, Książek, Ireneusz, Kaczmarczyk, Jacek, Figacz, Waldemar, Kubkowska, Monika, Burhenn, Rainer, Kunkel, Falk, Laube, Ralph, and Renard, Sebastien

Subjects
BORON, PLASMA-wall interactions, RADIANT intensity, SPECTRAL lines, STELLARATORS, VACUUM chambers, PLASMA interactions
Abstract

The "C/O Monitor" system for the Wendelstein 7-X (W7-X) stellarator is a dedicated spectrometer with high throughput and high time resolution (order of 1 ms) for fast monitoring of content of low-Z impurities in the plasma. The observed spectral lines are fixed to Lyman-α lines of H-like atoms of carbon (3.4 nm), oxygen (1.9 nm), nitrogen (2.5 nm), and boron (4.9 nm). The quality of the wall condition will be monitored by the measurements of oxygen being released from the walls during the experiments. The strong presence of carbon is an indication for enhanced plasma-wall interaction or overload of plasma facing components. The presence of nitrogen (together with oxygen) may indicate a possible leakage in the vacuum system, whereas the intensity of the spectral emission of boron indicates the status of the boron layer evaporated onto the wall in order to reduce the influx of heavier steel ingredients or oxygen. The spectrometer will be fixed in a nearly horizontal position and is divided into two vacuum chambers, each containing two spectral channels assigned to two impurity species. Each channel will consist of a separate dispersive element and detector. The line-of-sight of both subspectrometers will cross at the main magnetic axis. This paper presents the conceptual design of the "C/O Monitor" for W7-X which has already entered the executive stage. [ABSTRACT FROM AUTHOR]

Published
2019
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12. Transport of Impurity Ions in the Wendelstein 7-AS Stellarator Plasma.

Author

Burhenn, Rainer, Baldzuhn, Juergen, Beidler, Craig, Brakel, Rudolf, Ehmler, Hartmut, Giannone, Louis, Grigull, Peter, Hirsch, Matthias, Knauer, Jens, Krychowiak, Maciej, Ida, Katsumi, Maassberg, Henning, McCormick, Kent, Pasch, Ekkehard, and Weller, Arthur

Subjects
*STELLARATORS, *IONS, *PLASMA gases, *LASER plasmas, *PLASMA density, *CYCLOTRONS, *PLASMA heating
Abstract

The impact of global plasma parameters on impurity transport in the stellarator W7-AS was investigated by laser blow-off technique. Both, density and heating power were identified to have a strong influence on impurity confinement τI ∼ ne1.2/PECRH0.8. In spite of stationary conditions at lower densities, an increasing trend for accumulation was observed at plasma densities beyond 5·1019 m-3 due to reduction of the diffusion coefficients. Up to densities of at least 9·1019 m-3, launching of electron cyclotron resonance heating (ECRH) power of 1.2 MW is able to counteract the impurity accumulation by deterioration of the impurity confinement with heating power according to the scaling law as given above. In neutral beam injection (NBI) heated plasmas at densities higher than 1·1020m-3, long confinement times were observed, often accompanied by loss of density control and degradation of plasma energy due to increasing radiation losses. The installation of island divertor allowed a general extension of the range of accessible densities up to 4·1020m-3: beyond a certain power-dependent threshold density (1.5–2.1·1020m-3), the plasma enters the High Density H-mode (HDH) regime and the impurity confinement time drops to values comparable to the energy confinement time. High density plasmas could be sustained quasi-stationary with a low level of impurity radiation. The favourable impurity behavior goes along with a reduction of the inward impurity convection in the core plasma and possible changes in the edge transport. For the characterization of the general impurity behavior in W7-AS plasmas the usual transport models for axisymmetric devices are not sufficient and additional stellarator specific processes have to be considered. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2006
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13. Impurity Transport Studies in the Wendelstein 7-AS Stellarator

Author

Burhenn, Rainer, Baldzuhn, Jürgen, Brakel, Rudolf, Ehmler, Hartmut, Giannone, Louis, Grigull, Peter Eckhard, Knauer, Jens, Krychowiak, Maciej, Hirsch, Matthias, Ida, Katsumi, Maassberg, Henning, McCormick, Gerald Kent, Pasch, Ekkehard, Thomsen, Henning, and Wel, Arthur

Abstract

AbstractThe dependence of impurity transport on plasma parameters in the modular stellarator Wendelstein 7-AS was investigated by means of a laser blow-off technique. An increased impurity transport at higher heating power and lower magnetic field strength as well as no effect of the isotope composition on the impurity confinement was observed. The most critical scaling with respect to stationary operation at high density is the improved confinement of impurities at high densities, leading to a degradation of plasma energy by increasing radiation and to a loss of density control. This was attributed to a reduction of the impurity diffusion coefficient with density. After installation of island divertor modules, a transition from normal confinement into the high-density H-mode (HDH) at a certain power-dependent threshold density appeared. This transition is characterized by a strong reduction of the impurity confinement time and an increase in energy confinement time. In the HDH operational regime, access to even higher densities (4 × 1020m−3) than achieved before became possible under stationary operation conditions. Impurity transport measurements and model predictions indicate that the reduction of the impurity confinement in HDH is caused by not only a reduction of the inward convection in the core plasma but also possibly by changes in the edge transport. Comparison of experimental data with an axisymmetric transport model should elucidate the role of stellarator-specific transport aspects.

Published
2004
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14. Letter

Author

W7-X Team, Wegner, Thomas, Alcuson, Jorge Alberto, Geiger, Benedikt, Stechow, Adrian von, Xanthopoulos, Pavlos, Angioni, Clemente, Beurskens, Marc N. A., Böttger, Lukas, Bozhenkov, Sergey A., Brunner, Kai Jakob, Burhenn, Rainer, Buttenschön, Birger, Damm, Hannes, Edlund, Eric M., Ford, Oliver P., Fuchert, Golo, Grulke, Olaf, Huang, Zhouji, Knauer, Jens P., Kunkel, Falk, Langenberg, Andreas, Pablant, Novimir Antoniuk, Pasch, Ekkehard, Rahbarnia, Kian, Schilling, Jonathan, Thomsen, H., Vano, Lilla, Gantenbein, Gerd, Huber, Martina, Illy, Stefan, Jelonnek, John, Kobarg, Thorsten, Lang, Rouven, Leonhardt, Wolfgang, Mellein, Daniel, Papenfuß, Daniel, Scherer, Theo, Thumm, Manfred, Wadle, Simone, Weggen, Jörg, and W7-X Team, Max Planck Institute for Plasma Physics, Max Planck Society

Subjects
Nuclear and High Energy Physics, Electron density, Technology, Materials science, Condensed matter physics, Plasma, Condensed Matter Physics, 7. Clean energy, 01 natural sciences, Instability, 010305 fluids & plasmas, law.invention, Ion, Impurity, law, Physics::Plasma Physics, 0103 physical sciences, Electron temperature, Wendelstein 7-X, 010306 general physics, ddc:600, Stellarator
Abstract

First experimental observations in the Wendelstein 7-X stellarator indicate that the impurity confinement can be explained by turbulent processes. In particular, plasma discharges with increased ion to electron temperature ratio are accompanied by reduced electron density fluctuation amplitudes and anomalous impurity diffusion, suggesting a lower turbulent transport. Employing gyro-kinetic numerical simulations, we argue that the temperature Ratio plays a key role for reducing the ion temperature gradient instability in Wendelstein 7-X, leading to an enhanced impurity confinement.

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