Your search keyword '"K. Büchl"' showing total 24 results

1. High-βPlasmoid Drift during Pellet Injection into Tokamaks

Author

H. W. Müller, K. Büchl, M. Kaufmann, P. T. Lang, R. S. Lang, A. Lorenz, M. Maraschek, V. Mertens, J. Neuhauser, and null ASDEX Upgrade Team

Subjects

Physics, business.product_category, Tokamak, Hydrogen, General Physics and Astronomy, chemistry.chemical_element, Plasmoid, Plasma, Radius, law.invention, Acceleration, Rocket, chemistry, law, Beta (plasma physics), Atomic physics, business

Abstract

The outward acceleration of enhanced- $\ensuremath{\beta}$ plasmoids formed when a frozen hydrogen pellet is injected into a hot tokamak plasma has been directly observed. The plasmoid characteristics, acceleration, and velocities measured agree with theoretical expectations. The plasmoid motion is always in the positive major radius direction, consistent with high fueling efficiency for high-field side, and rapid mass loss for low-field side injection. In parallel a weak acceleration of the ablating pellet itself in the same direction was observed, probably caused by a net radial rocket force component.

Published

1999

2. Characterization of the hydrogen emission in divertor II of ASDEX-Upgrade

Author

K. Büchl, Albrecht Herrmann, K. Schmidtmann, K.H. Behringer, and U. Wenzel

Subjects

Nuclear and High Energy Physics, Tokamak, Opacity, Chemistry, Plasma parameters, Divertor, Balmer series, Plasma, Fusion power, law.invention, symbols.namesake, Nuclear Energy and Engineering, ASDEX Upgrade, law, symbols, General Materials Science, Atomic physics

Abstract

Detailed experiments have been carried out in ASDEX-Upgrade to characterize detached plasma conditions in divertor II. This paper presents measurements of the hydrogen emission in the visible and VUV spectral range that distinguishes between the ionization front and the recombining divertor plasma. Plasma parameters in the recombination dominated region were obtained from the Balmer continuum and line emission. By means of the ADAS programme package the rate of volume recombination is evaluated including the effect of opacity. The optical thickness was experimentally determined from the line ratio of L β and H α . In the recombining plasma we have observed an inverse response of H α light during the spatial broadening of ELMs. Inverse ELMs show signatures of convective transport.

Published

1999

3. High-Efficiency Plasma Refuelling by Pellet Injection from the Magnetic High-Field Side into ASDEX Upgrade

Author

Michael Kaufmann, K. Büchl, NI Teams, V. Mertens, R. S. Lang, H. W. Müller, Peter Lang, and J. Neuhauser

Subjects

Tokamak, Materials science, ASDEX Upgrade, law, Pellet, Pellets, General Physics and Astronomy, Diamagnetism, Plasma, Penetration (firestop), Atomic physics, law.invention, Magnetic field

Abstract

High-efficiency refuelling of ELMy H-mode tokamak discharges with solid deuterium pellets injected from the magnetic high-field side is demonstrated. Compared to standard low-field side injection, the fuelling efficiency was enhanced by a factor of 4, the pellet penetration more than 2 times. This experimental result can be qualitatively explained by the magnetic force pushing a diamagnetic plasma cloud towards lower magnetic field, causing rapid particle loss for shallow low-field side injection, but enhancing fuelling efficiency and pellet penetration for high-field side injection.

Published

1997

4. Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX upgrade

Author

K. Büchl, M. Schittenhelm, K. Lackner, M. Sokoll, R. Neu, H. Zohm, M. Maraschek, Julia Fuchs, V. Mertens, W. Suttrop, and Michael Kaufmann

Subjects

Nuclear and High Energy Physics, Electron density, Materials science, Tokamak, Flux, Electron, Condensed Matter Physics, law.invention, ASDEX Upgrade, law, Tearing, Radiative transfer, Atomic physics, Ohmic contact

Abstract

Tearing mode formation is investigated for ohmic density limit discharges on the ASDEX Upgrade tokamak at medium and high safety factors (q95=3.8, 4.9, 6.0). Low electron temperatures inside magnetic islands and the observation of localized C III impurity radiation suggest that a thermal instability, as proposed by Rebut and Hugon, destabilizes the (m, n)=(3,1) and (4,1) islands, which grow during the current profile contraction phase. In contrast, the (2,1) islands appear to be thermally stable. Minor disruptions lead to step-wise loss of confinement, first localized at the 4 2 surface, then after a time delay comparable to the resistive time-scale, at the q=3 surface and after a second time delay, at the q=4 surface. It is found that (3,1) islands, unlike (2,1) islands, are quenched by the high heat flux during minor disruptions

Published

1997

5. Radiative boundary discharges with impurity injection and the H - L transition in ASDEX Upgrade

Author

A Kallenbach, R Dux, H-S Bosch, K Büchl, J C Fuchs, O Gehre, G Haas, A Herrmann, W Herrmann, W Junker, M Kaufmann, V Mertens, F Mast, J Neuhauser, S de Peña Hempel, F Ryter, J Schweinzer, K-H Steuer, W Suttrop, H Zohm, ASDEX Upgrade, null NI-Team, and null ICRH-Team

Subjects

Tokamak, Materials science, Argon, Divertor, chemistry.chemical_element, Radiation, Condensed Matter Physics, law.invention, Neon, Nuclear Energy and Engineering, chemistry, ASDEX Upgrade, Physics::Plasma Physics, law, Impurity, Radiative transfer, Atomic physics

Abstract

The influence of impurity radiation on the and transitions is investigated for highly radiative divertor discharges in the ASDEX Upgrade tokamak. The transitions between H- and L-mode depend on the net heat flow across the separatrix, , calculated from the heating power and bolometric radiation profiles. For typical radiative boundary conditions in ASDEX Upgrade, the radiation distribution is dominated by line emission in the vacuum-ultraviolet region and peaks near the separatrix. For the case of neon used as seed impurity, about 2/3 of the main chamber radiation is emitted inside, but close to the separatrix. Argon seed results in a higher fraction of core radiation, while the line emission is shifted further outside for nitrogen. The radiation-corrected threshold is not affected by gas puffing and is described by [MW, , T, amu]. The threshold power, which is typically lower by a factor of two without strong deuterium puffing, is increased by heavy gas puffing leading to . In the vicinity of the radiation-induced transition, a general alignment of H and L mode is observed with regard to global energy confinement time and edge density and temperature profiles. The transition itself exhibits a smooth evolution in time. Reduction of target plate power load down to about 10% of the total heating power is easily achieved by edge radiation in the CDH-mode for low conditions. However, this reduction is attributed mainly to radiation from inside the separatrix and is connected to relatively high values of the core . These results emphasize the importance of the development of more closed divertor concepts, allowing for higher divertor radiation levels in connection with lower core .

Published

1996

6. Characteristics of edge localized modes in ASDEX Upgrade

Author

W Suttrop, K Büchl, H J de Blank, J Schweinzer, H Zohm, ASDEX Upgrade team, NBI group, and ICRH group

Subjects

Nuclear physics, Tokamak, Materials science, Nuclear Energy and Engineering, ASDEX Upgrade, law, Electron temperature, Edge (geometry), Atomic physics, Condensed Matter Physics, Neutral beam injection, law.invention

Abstract

Characteristics of the various types of edge localized modes (ELMs) observed during the H-mode of the ASDEX Upgrade tokamak are presented. Magnetic high-mode-number ELM precursor activity is found for type I ELMs and type III ELMs, the former only during neutral beam injection in the counter direction. The effect of ELMs on electron temperature and density profiles is discussed.

Published

1996

7. H mode discharges with feedback controlled radiative boundary in the ASDEX Upgrade tokamak

Author

A. R. Field, Thomas Zehetbauer, O. Vollmer, F. Ryter, M. Alexander, J. C. Fuchs, Gerhard Raupp, G. Neu, Michael Kaufmann, M. Bessenrodt-Weberpals, R. Dux, Albrecht Herrmann, W. Köppendörfer, W. Poschenrieder, G. Haas, O. Gehre, S. Hirsch, O. Gruber, K. Schonmann, H. Zohm, Hans-Stephan Bosch, K. Büchl, V. Mertens, S. De Pena Hempel, K.-H. Steuer, A. Stäbler, K.H. Behringer, K. Lackner, A. Kallenbach, K. F. Mast, M. Weinlich, J. Neuhauser, and W.P. West

Subjects

Nuclear and High Energy Physics, Tokamak, Argon, Materials science, Divertor, chemistry.chemical_element, Effective radiated power, Condensed Matter Physics, law.invention, High-confinement mode, Neon, chemistry, ASDEX Upgrade, Physics::Plasma Physics, law, Atomic physics, Neutral particle

Abstract

Puffing of impurities (neon, argon) and deuterium gas in the main chamber is used to feedback control the total radiated power fraction and the divertor neutral particle density simultaneously in the ASDEX Upgrade tokamak. The variation of Psep=Pheat-Prad(core) by impurity radiation during H mode shows a similar effect on the ELM behaviour as that obtained by a change of the heating power. For radiated power fractions above 90%, the ELM amplitude becomes very small and detachment from the divertor plates occurs, whilst no degradation of the global energy confinement is observed (completely detached high confinement mode). Additional deuterium gas puffing is found to increase the radiated power per impurity ion in the plasma core owing to the combined effect of a higher particle recycling rate and a lower core penetration probability. The outer divertor chamber, which is closed for deuterium neutrals, builds up a high neutral pressure, the magnitude of which is determined by the balance of particle sources and pumping. For this particular situation, the effective pumping time of neon and argon is considerably reduced, to less than 0.3 s, mainly owing to an improved divertor retention capability. The radiation characteristics of discharges with a neon driven radiative mantle are modelled using a 1-D radial impurity transport code that has been coupled to a simple divertor model describing particle recycling and pumping. The results of simulations are in good agreement with experiment

Published

1995

8. Investigation of the bifurcation character of the H-mode in ASDEX Upgrade

Author

V. Mertens, F. Ryter, H. Zohm, A. Kallenbach, O. Gruber, H. J. de Blank, M. Schittenhelm, K. Büchl, and W. Suttrop

Subjects

Physics, Tokamak, Mode (statistics), Schematic, Transport barrier, Condensed Matter Physics, Bifurcation diagram, law.invention, Character (mathematics), Nuclear Energy and Engineering, ASDEX Upgrade, law, Atomic physics, Bifurcation

Abstract

The so-called 'dithering cycles', i.e. periodic L-H-L transitions, are studied in the ASDEX Upgrade tokamak. The cycle repetition frequency is approximately 2 kHz; high-resolution ECE measurements show that Tc changes during the cycle consistent with the assumption of the periodic build-up and destruction of the edge transport barrier characteristic of the H-mode. A study of the conditions under which the cycles occur reveals that with the unfavourable Del B drift direction, the cycles are suppressed. These observations are interpreted in a schematic bifurcation diagram; we find that the width of the bifurcation varies with the reversal of the Del B drift.

Published

1995

9. The effect of density on divertor conditions in ASDEX-Upgrade

Author

U. Wenzel, R. Neu, K. Büchl, J. Neuhauser, Ch. Fuchs, W. Junker, Hans-Stephan Bosch, A. R. Field, ASDEX-Upgrade Team, C. S. Pitcher, and G. Haas

Subjects

Nuclear and High Energy Physics, Electron density, Tokamak, Chemistry, Divertor, Flux, Fusion power, Effective radiated power, law.invention, Nuclear Energy and Engineering, ASDEX Upgrade, Physics::Plasma Physics, law, Electron temperature, General Materials Science, Atomic physics

Abstract

Detailed experimental divertor data are presented on the profiles of density and temperature in the inner and outer divertor fans, the radiated power distribution, the gas pressure and the spectroscopically derived particle fluxes, all as a function of the discharge density. At low and medium density, the inner divertor is cold and dense compared to the outer divertor. At high density, strong X-point MARFE and separatrix radiation partially detaches the inner divertor. Probe measurements which penetrate into the X-point MARFE at the outer divertor are presented.

Published

1995

10. H-mode results in ASDEX Upgrade

Author

R. Neu, Michael Kaufmann, Ch. Fuchs, A. Kallenbach, K. Büchl, S. De Pena Hempel, V. Mertens, Albrecht Herrmann, W. Köppendörfer, F. Mast, H. Zohm, O. Gruber, O. Gehre, K.-H. Steuer, and F. Ryter

Subjects

Tokamak, Materials science, Nuclear engineering, Mode (statistics), Condensed Matter Physics, Power (physics), law.invention, Plasma edge, Nuclear physics, Nuclear Energy and Engineering, ASDEX Upgrade, law, Power flux, Ohmic contact

Abstract

The H-mode obtained in ASDEX Upgrade by three heating methods (Ohmic, NBI, ICRF) is analysed. The power threshold is shown to be relatively low compared with other tokamaks and to be independent of the heating method. The operational window for the different types of H-phases, (dithering, ELMing with type-III and I ELMs, ELM-free) is given and discussed. The features of the H-mode discharges, in particular quasi-stationary ELMing phases with type I ELMs, are described and discussed. Finally, it is shown that the power flux through the plasma edge is a key parameter for H-mode operation and control.

Published

1994

11. Arcing in ASDEX-Upgrade

Author

M. Weinlich, K. Büchl, and B. Juttner

Subjects

Materials science, Toroid, Divertor, Mechanics, Condensed Matter Physics, Cathode, law.invention, Arc (geometry), Electric arc, ASDEX Upgrade, Physics::Plasma Physics, law, Electrode, Electric current

Abstract

Arc traces and luminous phenomena at the divertor tiles of ASDEX-Upgrade were recorded, and experimentally modelled by artificially ignited arcs. At the graphite surfaces the arcs produced relatively immobile spots that were uniformly distributed in toroidal direction. To explain the latter effect, the behavior of flux tubes emanating from the arc spots is discussed. It is concluded that arcing should not be neglected in theoretical models that describe processes in high power machines.

Published

1994

12. Focus detector as an aid for focusing a laser on a target

Author

K. Büchl

Subjects

Optical fiber, Materials science, business.industry, Materials Science (miscellaneous), Detector, Photodetector, chemistry.chemical_element, Radiation, Laser, Neodymium, Industrial and Manufacturing Engineering, law.invention, Optics, chemistry, law, Optoelectronics, Business and International Management, A fibers, business, Focus (optics)

Abstract

An apparatus is described which assesses the focus of a laser on a surface. An image of the focus is scanned by fiber optics. A rotating slit together with a photodetector behind the fibers detects whether a fiber is illuminated or not. When the focus coincides with the surface of the target, the number of illuminated fibers is a minimum. The apparatus is especially advantageous for adjustment when the radiation is not visible, for example, with neodymium lasers or with frequency doubled radiation from ruby lasers.

Published

2010

13. Pellet imaging techniques in the ASDEX tokamak

Author

K. Büchl, R.S. Lang, A. Rudyj, W. Sandmann, G. A. Wurden, J. Hofmann, and R. Loch

Subjects

Tokamak, Materials science, Spectrometer, business.industry, digestive, oral, and skin physiology, Plasma, law.invention, Light intensity, Optics, law, Pellet, Plasma diagnostics, Light emission, Emission spectrum, business, Instrumentation

Abstract

As part of a USDOE/ASDEX collaboration, a detailed examination of pellet ablation in ASDEX with a variety of diagnostics has allowed a better understanding of a number of features of hydrogen ice pellet ablation in a plasma. In particular, fast‐gated photos with an intensified Xybion CCD video camera allow in situ velocity measurements of the pellet as it penetrates the plasma. With time resolution of typically 100 ns and exposures every 50 μs, the evolution of each pellet in a multipellet ASDEX tokamak plasma discharge can be followed. When the pellet cloud track has striations, the light intensity profile through the cloud is hollow (dark near the pellet), whereas at the beginning or near the end of the pellet trajectory the track is typically smooth (without striations) and has a gaussian‐peaked light emission profile. New, single pellet Stark broadened Dα, Dβ, and Dγ spectra, obtained with a tangentially viewing scanning mirror/spectrometer with Reticon array readout, are consistent with cloud densiti...

Published

1990

14. Pellet imaging techniques in the ASDEX tokamak (abstract)

Author

A. Rudyj, K. Büchl, G. A. Wurden, W. Sandmann, R. Loch, J. Hofmann, and R.S. Lang

Subjects

Tokamak, Materials science, Spectrometer, business.industry, digestive, oral, and skin physiology, Plasma, Spectral line, law.invention, Light intensity, symbols.namesake, Optics, Stark effect, law, Pellet, symbols, Light emission, Atomic physics, business, Instrumentation

Abstract

As part of a USDOE/ASDEX collaboration, a detailed examination of pellet ablation in ASDEX with a variety of diagnostics has allowed a better understanding of a number of features of hydrogen ice pellet ablation in a plasma. In particular, fast‐gated photos with an intensified Xybion CCD video camera allow in situ velocity measurements of the pellet as it penetrates the plasma. With time resolution of typically 100 ns and exposures every 50 μs, the evolution of each pellet in a multipellet ASDEX tokamak plasma discharge can be followed. When the pellet cloud track has striations, the light intensity profile through the cloud is hollow (dark near the pellet), whereas at the beginning or near the end of the pellet trajectory the track is typically smooth (without striations) and has a gaussian‐peaked light emission profile. New, single pellet Stark broadened Dα, Dβ, and Dγ spectra, obtained with a tangentially viewing scanning mirror/spectrometer with Reticon array readout, are consistent with cloud densiti...

Published

1990

15. Pellet injection with improved confinement in ASDEX

Author

K. McCormick, O. Gehre, K. Büchl, G. Janeschitz, Z. A. Pietrzyk, M. Kornherr, H. P. Zehrfeld, D. Zasche, K. F. Mast, K. Grassie, G. Fussmann, G. Vlases, K. Lackner, W. Sandmann, V. Mertens, Michael Kaufmann, J. Neuhauser, R.S. Lang, G. Haas, H. Niedermeyer, O. Gruber, and Wolf-Dieter Schneider

Subjects

Nuclear and High Energy Physics, Tokamak, Materials science, Divertor, Pellets, Electron, Plasma, Condensed Matter Physics, law.invention, Ion, law, Phase (matter), Atomic physics, Ohmic contact

Abstract

Tokamak discharges with repetitive pellet fuelling were investigated in the ASDEX divertor device. The importance of sufficiently high divertor recycling for a high density at the separatrix and for successful density buildup in the bulk plasma was demonstrated. In contrast to low recycling discharges where no permanent improvement of the energy confinement time was achieved, in OH-heated discharges with high recycling an energy confinement time of 160 ms was reached, the normal value being 80 ms in the rollover region. The peaked density profiles in this case were accompanied by reduced or suppressed sawtooth activity and finally ended in a phase of strong central impurity accumulation. The particle transport was characterized by strong, non-classical inward drift, while the improved energy transport can be explained by the following alternatives: (la) a local model which assumes neo-Alcator χe for the electrons and χi= 3χneocl for the ions in the gas puff cases, reducing to χi= χneocl for the optimum pellet cases; (1b) the assumption χi= χneocl under all conditions and an electron energy confinement worse than neo-Alcator in the rollover region in gas-puff-discharges; (2) a profile consistency picture where Te(a) determines the energy confinement. Low power, NI heated discharges with pellet fuelling behave like Ohmic discharges, while for high power in the L-mode no successful density buildup was possible, and τE was not improved. The H-regime was extended from a density maximum e = 0.8 × 1020 m-3 without pellets to e = 1.2 × 1020 m-3 by the injection of pellets. In this case a density buildup takes place, but further density profile peaking could not be observed.

Published

1988

16. Long-pulse heating of ASDEX plasmas

Author

Kenneth W Gentle, H. D. Murmann, S. Kaesdorf, J. B. Whitley, E. Holzhauer, J. Neuhauser, Friedrich E. Wagner, G. Dodel, D. Zasche, Michael Kaufmann, A. Carlson, B. Bomba, G. Haas, W. Poschenrieder, M. Kornherr, H. Röhr, O. Gruber, H. Herrmann, O. Klüber, M. P. Petrov, S. V. Goeler, Ulrich Stroth, F. Karger, V. Mertens, N. Tsois, H. Bruhns, H. M. Mayer, H.-U. Fahrbach, J. Gernhardt, R. Lang, M. Keilhacker, G. Janeschitz, D. E. Roberts, O. Vollmer, J.-M. Noterdaeme, E. Simmet, A. Stäbler, H. Niedermeyer, R. Preis, P. Lee, K.-H. Steuer, Ewald Müller, G. Lisitano, Y. Miura, K. Hübner, M. Lorcher, G. Siller, D. Meisel, E. Speth, T. C. Luce, R. Nolte, A. Rudyj, O. Gehre, F. Schneider, K. Steinmetz, J. V. Hofmann, U. Schneider, L. Giannone, K. McCormick, E. Glock, A. Eberhagen, K. Krieger, G. Becker, H. Wurz, K. Büchl, G. v. Gierke, F. Solnder, F. Mast, G. Fussmann, K. Lackner, W. Sandmann, and H. Rapp

Subjects

Nuclear physics, Materials science, Tokamak, Long pulse, Nuclear Energy and Engineering, law, Divertor, Nuclear engineering, Plasma, Condensed Matter Physics, law.invention, Pulse (physics), Power (physics)

Abstract

The Divertor Tokamak ASDEX, its neutral injection system and its ICRH system have been modified to permit additional heating with a power of 6 MW for pulse lengths up to 10 s. The paper summarizes the arguments for long-pulse heating, describes the technical modifications of the divertor performed, their effect on the operational behaviour of the tokamak and presents a few typical results of recent experiments exploiting the long-pulse heating facilities.

Published

1988

17. Pellet injection on the ZT‐40M reversed field pinch

Author

K. Büchl, Robert G. Watt, G. A. Wurden, P.G. Weber, and E. K. Spanos

Subjects

Cryostat, Materials science, Tokamak, Reversed field pinch, law, Nuclear engineering, Pellet, Pellets, Injector, Plasma, Penetration (firestop), Instrumentation, law.invention

Abstract

The four barrel pneumatic pellet injector originally used on the Alcator C tokamak at MIT has been reconfigured for use on the ZT‐40M reversed field pinch (RFP) at Los Alamos National Laboratory. The lower temperature and density in this device require operation at velocities significantly lower than on Alcator. Allowing a 2‐s warmup prior to firing the injector has enabled operation with pressures as low as 40 psig and velocities ranging as low as 200 m/s with H2 pellets, without major cryostat modification. Initial injection experiments in the ZT‐40M plasma have verified that pellet refueling is effective for density control, but the net particle inventory increase is less than might be expected based on simple models. Indications of nonoptimal penetration and curvature of the pellet trajectory, in addition to comparable time scales for particle confinement and pellet transit, may account for this.

Published

1987

18. SURVEY OF STUDIES OF LASER-PRODUCED PLASMAS AT THE INSTITUT FÜR PLASMAPHYSIK, GARCHING

Author

H. Hora, P. Mulser, K. Büchl, H Baumhacker, H. Mennicke, Klaus Eidmann, H. Salzmann, R. Sigel, S. Witkowski, and D. Pfirsch

Subjects

Picosecond laser, Materials science, General Engineering, Plasma, Laser, law.invention, symbols.namesake, Deuterium, Solid hydrogen, law, symbols, Fusion rate, Atomic physics, Nanosecond laser, Raman scattering

Abstract

A status report of November 1970 on experimental and theoretical studies of laserproduced plasmas at the Institut fur Plasmaphysik is given. Experimental investigations of plasma production by nanosecond laser pulses from targets of solid hydrogen and deuterium, of Raman scattering from these materials, and of plasma production by picosecond laser pulses are described. The theoretical part comprises numerical studies of the expansion of a two-temperature plasma (Te≠Ti) and of a multicomponent plasma and also calculations of the fusion rate of an inertially confined plasma.

Published

1972

19. FORWARD GOING FILAMENT IN SPARKS INDUCED BY 10.6‐μ LASER RADIATION

Author

A. J. Alcock, M. Gravel, K. Büchl, M. C. Richardson, and W. J. Robertson

Subjects

Co2 laser, Physics and Astronomy (miscellaneous), Physics::Instrumentation and Detectors, Chemistry, business.industry, Constant velocity, Plasma, Radiation, Laser, law.invention, Protein filament, Optics, law, Excited state, Atomic physics, business, Physics::Atmospheric and Oceanic Physics, Laser beams

Abstract

An investigation of sparks produced in a number of gases by means of a transversely excited atmospheric‐pressure (TEA) CO2 laser has revealed the existence of a clearly visible plasma filament which propagates at an almost constant velocity in the same direction as the laser beam.

Published

1971

20. Plasma Production by CO2 Laser

Author

K. Büchl

Subjects

Physics, X-ray laser, law, Solid hydrogen, Bremsstrahlung, Inverse, Production (computer science), Absorption (logic), Plasma, Atomic physics, Laser, law.invention

Abstract

Plasma production from solid hydrogen targets with laser radiation at 0.69 μ and 1.06 μ has been well investigated in past years and good agreement has been found between a model based on hydrodynamic calculations and experiments. The model was developed by Afanasyev, Krokhin and Sklizkov1, Caruso and Gratton2, Mulser3 and others. It assumes that the absorption of laser radiation is due to inverse bremsstrahlung at the surface of the solid target. A hot plasma is produced and expands towards the laser into the vacuum. Then the radiation will be absorbed in the plasma near the critical density ne, which is given by $${n_c} = \frac{{\omega _L^2\,\,{m_e}}}{{4\;\pi \;{e^2}}}$$ (1) where ωL is the laser frequency.

Published

1972

21. Plasma Production with a Nd Laser and Non-Thermal Effects

Author

K. Eidmann, H. Salzmann, K. Büchl, P. Mulser, H. J. Schwarz, and R. Sigel

Subjects

Range (particle radiation), Thermonuclear fusion, Materials science, Neutron emission, Plasma, Laser, Computational physics, law.invention, Physics::Plasma Physics, law, Physics::Space Physics, Thermal, Electron temperature, Laser power scaling

Abstract

With the improvement of high power lasers it has become possible to produce plasmas of very high density and temperatures which possibly are of interest for thermonuclear research. Recently substantial neutron emission from such plasmas has been reported1–6. In order to investigate the future possibilities in this field of plasma physics detailed understanding of the properties of these plasmas is necessary. In this paper we report results obtained by using a variety of diagnostic techniques applied to plasmas produced within a wider range of laser power and show the evidence of non-thermal effects occurring in laser produced plasmas at moderate energies.

Published

1972

22. Divertor tokamak operation at high densities on ASDEX Upgrade

Author

R. Schneider, Bastiaan J. Braams, B. Streibl, F. Serra, A. Thoma, R. Chodura, W. Treutterer, H. W. Mueller, E. Speth, H. J. de Blank, G. Schramm, F. Leuterer, M. Schittenhelm, J. Gernhardt, Klaus Hallatschek, R. Lang, R. Merkel, J. Engstler, K. Krieger, A. Bergmann, C.S. Pitcher, M. Markoulaki, D. Schloegl, K. Asmussen, F. Ryter, A. Staebler, W. Suttrop, P. Franzen, F. Braun, G. Pautasso, M. Bessenrodt-Weberpals, Albrecht Herrmann, K. Reinmueller, K. Behler, Q. Yu, M. Weinlich, D. Zasche, V. Rohde, R. Wunderlich, Harald Schneider, E. Pasch, F. Wesner, D. Jacobi, S. Hirsch, H. Salzmann, H. B. Schilling, A. Buhler, K. Büchl, H. Hohenoecker, G. Pereverzev, M. Troppmann, T. Kass, W. Herrmann, W. Poschenrieder, A. G. Peeters, R. Schwoerer, Thomas Zehetbauer, H. Meister, N. Xantopoulus, M. Kakoulidis, U. Wenzel, A. Khutoretski, H. P. Zehrfeld, H. U. Feist, M. Ulrich, G. Herppich, Robert Wolf, H. Kollotzek, P. Varela, M. Niethammer, M. Muenich, S. Deschka, K.-H. Steuer, H. U. Fahrbach, J. Gafert, Peter Lang, M. Alexander, M. Albrecht, J. Hartmann, S. De Pena Hempel, Bruce D. Scott, P. Ignacz, Sibylle Günter, M. Hoek, H. D. Murmann, M. Maraschek, A. Silva, S. Sesnic, J.-M. Noterdaeme, C. Dorn, R. Drube, R. Dux, Martin Laux, Patrick J. McCarthy, K.H. Behringer, D. P. Coster, Wolf-Dieter Schneider, K. F. Mast, G. Neu, J. Schweinzer, J. Roth, K. Borras, K. Lackner, W. Sandmann, O. Gehre, M. Zouhar, A. Kallenbach, G. Fussmann, O. J. W. F. Kardaun, R. Neu, J. Neuhauser, S. Fiedler, Michael Kaufmann, W. Junker, A. Carlson, Marco Brambilla, W. Kraus, O. Gruber, Eberhard Holzhauer, G. Haas, W. Engelhardt, W. Koeppendoerfer, S. Schweizer, B. Heinemann, V. Mertens, Julia Fuchs, D. Meisel, F. Hoenen, G. Becker, F. Hofmeister, R. Riedl, B. Napiontek, M. Sokoll, H. Roehr, L. Lengyel, Gerhard Raupp, N. Karakatsanis, J. Stober, H. Zohm, Hans-Stephan Bosch, G. Kyriakakis, H. Verbeek, B. Kurzan, N. Tsois, L. Cupido, U. Seidel, O. Vollmer, H. Brinkschulte, and H. Wedler

Subjects

Tokamak, Toroid, Materials science, Radiative cooling, business.industry, Divertor, Plasma, Condensed Matter Physics, Ballooning, law.invention, Computational physics, Nuclear magnetic resonance, Nuclear Energy and Engineering, ASDEX Upgrade, Physics::Plasma Physics, law, business, Thermal energy

Abstract

Densities achievable in ASDEX Upgrade discharges are restricted by a disruptive limit in the L-mode caused by an edge-power imbalance which is linking divertor detachment, Marfe formation and the separatrix density. The attainable average densities depend then on the internal particle sources and the core transport and can exceed the empirical Greenwald density. In H-mode an upper density limit is found which represents a non-disruptive H - L back transition, which is preceded by the occurrence of type-III ELMs. Close to the Greenwald limit this H - L transition cannot be avoided at any power flux across the separatrix and - at high external neutral gas fluxes - confinement compared with ITER H-92P scaling degrades even before the back transition. The H-mode operational window is determined by local edge-barrier parameters and their gradients, respectively. The boundaries are represented by the L - H transition-temperature threshold, the ideal ballooning edge-pressure gradient limit, the upper temperature limit for type-III ELMs and an upper H-mode barrier density limitation. The cause for the last limitation is not yet identified; it may be due to resistive ballooning modes or the separatrix density limit. Despite the limited edge densities the Greenwald density could be surpassed by a factor of three with pellet refuelling from the low magnetic-field side. Pellet injection from the high-field side gains from the strong increase of fuelling efficiency due to the assisting toroidal outward drift of the formed high- ablatant. Higher densities are achievable in H-mode compared with low-field side injection and diminished convective losses avoid confinement degradation up to the Greenwald density. In gas-puffed type-I ELMy H-modes the plasma thermal energy and the edge-pressure gradients, which are limited by ballooning stability, are linked via a robust temperature-profile stiffness and the flat density profiles resulting from dominant edge refuelling at high densities. Their confinement does not improve with increasing density (and neutral gas fluxes) and may even slightly degrade. Therefore, the superior confinement of type-I ELMy H-modes compared with type-III ELMy ones at medium densities is actually offset at densities close to the Greenwald density. In contrast to the temperature-profile resilience density profiles can be changed both by deep refuelling (with pellets) and intrinsic transport improvements connected with density peaking (observed in CDH-modes), which offers the combination of high confinement and high density operation. The possible alliance with radiation cooling, divertor detachment and divertor compatible type-III ELMs could solve the power exhaust problem.

23. Impurity pellet injection systems for tokamak diagnostics and burn control

Author

V. G. Kapralov, Peter Lang, Shigeru Sudo, Rudolf S. Lang, K. Büchl, Pavel V. Reznichenko, B.V. Kuteev, I. V. Miroshnikov, Vladimir Yu. Sergeev, Dmitriy V. Polyakov, Paul Cierpka, Sergey M. Egorov, and K. V. Khlopenkov

Subjects

Tokamak, Materials science, 020209 energy, digestive, oral, and skin physiology, General Engineering, Pellets, Iter tokamak, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, law.invention, Nuclear physics, law, Impurity, 0103 physical sciences, Pellet, 0202 electrical engineering, electronic engineering, information engineering, Plasma diagnostics

Abstract

The paper contains recent results in the field of pellet diagnostics obtained on the T-10 and ASDEX-Upgrade tokamaks (collaboration between STU and IPP) and a proposal to inject high Z impurity pellets for control of the disruption and ramp-down phase in ITER.

24. Investigation of the blast wave from a laser produced gas breakdown

Author

R. Wienecke, S. Witkowski, K. Büchl, and K. Hohla

Subjects

Physics, law, hemic and lymphatic diseases, Astrophysics::High Energy Astrophysical Phenomena, General Physics and Astronomy, Atomic physics, Laser, Quantitative Biology::Genomics, Blast wave, Energy (signal processing), law.invention, Electric discharge in gases

Abstract

This paper investigates the propagation of a spherical blast wave from a laser produced gas discharge and compares it with a theory of Sakurai. The energy of the blast wave was determined for various gases and pressures.

Published

1968