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239 results on '"Siller, G."'

1. Square ice in graphene nanocapillaries

Author

Algara-Siller, G., Lehtinen, O., Wang, F. C., Nair, R. R., Kaiser, U., Wu, H. A., Grigorieva, I. V., and Geim, A. K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Adsorbed layers of water are ubiquitously present at surfaces and fill in microscopic pores, playing a central role in many phenomena in such diverse fields as materials science, geology, biology, tribology, nanotechnology. Despite such importance, the crystal structure of nanoconfined water remains largely unknown. Here we report high-resolution electron microscopy of mono- and few- layers of water confined between two graphene sheets, an archetypal example of hydrophobic confinement. Confined water is found to form square ice at room temperature - a phase with symmetry principally different from the conventional tetrahedral geometry of hydrogen bonding. The square ice has a high packing density with a lattice constant of 2.83 angstrom and during TEM observation assembles in bi- and tri- layer crystallites exhibiting AA stacking. Our findings are important for understanding of interfacial phenomena and, in particular, shed light on ultrafast transport of water through hydrophobic nanocapillaries. Our MD simulations show that square ice is likely to be common inside hydrophobic nanochannels, independent of their exact atomic makeup.

Published
2014
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2. Twisted bi-layer graphene: microscopic rainbows

Author

Campos-Delgado, J., Algara-Siller, G., Santos, C. N., Kaiser, U., and Raskin, J. -P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Twisted bi-layer graphene (tBLG) has recently attracted interest due to the peculiar electrical properties that arise from its random rotational configurations. Our experiments on CVD-grown graphene from Cu foil and transferred onto Si substrates, with an oxide layer of 100 nm, reveal naturally-produced bi-layer graphene patches which present different colorations when shined with white light. In particular yellow-, pink- and blue- colored areas are evidenced. Combining optical microscopy, Raman spectroscopy and transmission electron microscopy we have been able to assign these colorations to ranges of rotational angles between the two graphene layers. Optical contrast simulations have been carried out, proving that the observation of the different colorations is due to the angle-dependent electronic properties of tBLG combined with the reflection that results from the layered structure tBLG / 100 nm-thick SiO2 / Si. Our results could lead the way to an easy selective identification of bi-layer graphene merely through the observation on an optical microscope., Comment: This paper has been withdrawn by the author due to copyright incompatibility with the journal of final publication

Published
2013

3. From Graphene constrictions to single carbon chains

Author

Chuvilin, A., Meyer, J. C., Algara-Siller, G., and Kaiser, U.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present an atomic-resolution observation and analysis of graphene constrictions and ribbons with sub-nanometer width. Graphene membranes are studied by imaging side spherical aberration-corrected transmission electron microscopy at 80 kV. Holes are formed in the honeycomb-like structure due to radiation damage. As the holes grow and two holes approach each other, the hexagonal structure that lies between them narrows down. Transitions and deviations from the hexagonal structure in this graphene ribbon occur as its width shrinks below one nanometer. Some reconstructions, involving more pentagons and heptagons than hexagons, turn out to be surprisingly stable. Finally, single carbon atom chain bridges between graphene contacts are observed. The dynamics are observed in real time at atomic resolution with enough sensitivity to detect every carbon atom that remains stable for a sufficient amount of time. The carbon chains appear reproducibly and in various configurations from graphene bridges, between adsorbates, or at open edges and seem to represent one of the most stable configurations that a few-atomic carbon system accomodates in the presence of continuous energy input from the electron beam., Comment: 12 pages, 4 figures

Published
2009
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5. Square ice in graphene nanocapillaries

Author

Algara-Siller, G., Lehtinen, O., Wang, F.C., Nair, R.R., Kaiser, U., Wu, H.A., Geim, A.K., and Grigorieva, I.V.

Subjects
Ice crystals -- Properties -- Structure, Crystals -- Structure, Graphene -- Properties -- Structure, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Bulk water exists in many forms, including liquid, vapour and numerous crystalline and amorphous phases of ice, with hexagonal ice being responsible for the fascinating variety of snowflakes (1,2). Much less noticeable but equally ubiquitous is water adsorbed at interfaces and confined in microscopic pores. Such low-dimensional water determines aspects of various phenomena in materials science, geology, biology, tribology and nanotechnology (3-8). Theory suggests many possible phases for adsorbed and confined water (9-17), but it has proved challenging to assess its crystal structure experimentally (17-23). Here we report high-resolution electron microscopy imaging of water locked between two graphene sheets, an archetypal example of hydrophobic confinement. The observations show that the nanoconfined water at room temperature forms 'square ice'--a phase having symmetry qualitatively different from the conventional tetrahedral geometry of hydrogen bonding between water molecules. Square ice has a high packing density with a lattice constant of 2.83 Å and can assemble in bilayer and trilayer crystallites. Molecular dynamics simulations indicate that square ice should be present inside hydrophobic nanochannels independently of their exact atomic nature., Many molecular dynamics (MD) studies (9-17) have explored the structure of low-dimensional water and predicted a great variety of phases, with results sensitive to modelled conditions and sometimes appearing conflicting. [...]

Published
2015

7. Degradation study of a proton exchange membrane water electrolyzer under dynamic operation conditions

Author

Papakonstantinou, G., Algara-Siller, G., Teschner, D., Vidaković-Koch, T., Schlögl, R., and Sundmacher, K.

Abstract

Understanding degradation phenomena of polymer electrolyte water electrolyzers operating under dynamic conditions is imperative for developing and implementing efficient and reliable means of energy storage from fluctuating and intermittent renewable energy sources. Herein, a commercial membrane electrode assembly with an amorphous IrOx anode is subjected to potential sweeping (1.4–1.8 V) with short and long holds and few steady-state interims for overall 830 h at 60 °C and ambient pressure to simulate frequent alternating idle and nominal operation regimes. Systematic electrochemical diagnostics and physicochemical methods are applied to identify degradation sources. Mild kinetic deactivation (2.6 μV/h) is observed independent on the dynamic protocol, due to loss of electrochemical surface area via crystallization. The amount of Ir dissolved and redeposited in the ionomer anode phase and in the membrane is negligible in comparison to the current state-of-the-art Ir loadings. As compared to kinetic losses, the irreversible resistive losses are one order of magnitude higher and are thought to be caused by the degradation of the membrane close to the anode catalyst layer. These resistive losses are associated specifically with dynamic operation. The two orders of magnitude higher, but recoverable, degradation during steady-state interims is attributed to the growth of inhibiting or long-lived species.

Published
2020

12. T18. Prevalencia de cardiopatía isquémica determinada por gated-SPECT en pacientes con cáncer de mama.

Author

Avalos-Ríos, J. M., Martínez-Escobar, M., Mendoza-Avellán, L. M., Hernández-Martínez, A., and Pérez-Siller, G. R.

Abstract

Copyright of Cardiovascular & Metabolic Science is the property of Cardiovascular & Metabolic Science, Asociacion Nacional de Cardiologos de Mexico A.C. (ANCAM) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022

13. Lower Hybrid Current Drive and Recharging of the Ohmic Heating Transformer in ASDEX

Author

Leuterer, F., Eckhartt, D., Söldner, F., Bartiromo, R., Becker, G., Bernhardi, K., Bosch, H. S., Brambilla, M., Brocken, H., Derfler, H., Eberhagen, A., Fußmann, G., Gehre, O., Gernhardt, J., v. Gierke, G., Giuliana, A., Glock, E., Gruber, O., Haas, G., Hesse, M., Janeschitz, G., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Kotzé, P. B., Kislyakov, A., Lenoci, M., Lisitano, G., Mayer, H. M., McCormick, K., Meisel, D., Mertens, V., Müller, E. R., Münich, M., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Schmitter, K. H., Schneider, F., Siller, G., Smeulders, P., Steuer, K. H., Vien, T., Vlases, G., Wagner, F., v. Woyna, F., Zouhar, M., Zichichi, Antonino, editor, and Knoepfel, Heinz, editor

Published
1986
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16. Appendix

Author

Basov, N. G., Krokhin, O. N., Kriukov, P. G., Zakharov, S. D., Senatsky, Yu. V., Tchekalin, S. V., Linlor, William L., Papoular, Renaud, Alcock, A. J., Siller, G., Büchl, K., Hora, H., Dawson, John M., Mulser, Peter, Wilhelm, Hannelore, DuBois, Donald F., Lindl, John D., Kaw, Predhiman K., Chen, Francis F., Nuckolls, John H., Lengyel, L. L., Clarke, J. S., Fisher, H. N., Mason, R. J., Floux, F., Cognard, D., Denoeud, L-G., Piar, G., Parisot, D., Bobin, J. L., Delobeau, F., Fauquignon, C., Sklizkov, G. V., Ivanov, Yu. S., Mikhailov, Yu. A., Fedotov, S. I., Yamanaka, C., Yamanaka, T., Sasaki, T., Yoshida, K., Waki, M., Kang, H. B., McCall, G. H., Young, F., Ehler, A. W., Kephart, J. F., Godwin, R. P., Goldman, L. M., Soures, J., Lubin, M. J., Shearer, J. W., Garrison, J., Wong, J., Swain, J. E., Hora, Heinrich, and Ksander, Yuri, editor

Published
1975
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19. Atmospheric pressure X-ray photoelectron spectroscopy apparatus: Bridging the pressure gap

Author

Velasco-Vélez, J. J., primary, Pfeifer, V., additional, Hävecker, M., additional, Wang, R., additional, Centeno, A., additional, Zurutuza, A., additional, Algara-Siller, G., additional, Stotz, E., additional, Skorupska, K., additional, Teschner, D., additional, Kube, P., additional, Braeuninger-Weimer, P., additional, Hofmann, S., additional, Schlögl, R., additional, and Knop-Gericke, A., additional

Published
2016
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21. FIRST RESULTS FROM NEUTRAL BEAM HEATING OF DIVERTED ASDEX DISCHARGES

Author

Wagner, F., primary, Behringer, K., additional, Becker, G., additional, Campbell, D., additional, Eberhagen, A., additional, Engelhardt, W., additional, Fussmann, G., additional, Gehre, O., additional, Gierke, G. v, additional, Haas, G., additional, Karger, F., additional, Keilhacker, M., additional, Klüber, O., additional, Kornherr, M., additional, Lackner, K., additional, Lisitano, G., additional, Mayer, H.-M., additional, Meisel, D., additional, Müller, R., additional, Murmann, H., additional, Niedermeyer, H., additional, Poschenrieder, W., additional, Rapp, H., additional, Röhr, H., additional, Schneider, F., additional, Siller, G., additional, Steuer, K.-H., additional, Venus, G., additional, Stäbler, A., additional, Speth, E., additional, Kunze, R.C., additional, Lister, G.G., additional, Lohnert, H., additional, Succi, S., additional, and Vollmer, O., additional

Published
1982
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24. Electron radiation damage mechanisms in 2D MoSe2.

Author

Lehnert, T., Lehtinen, O., Algara-Siller, G., and Kaiser, U.

Subjects
RADIOBIOLOGY, PARTICLE scattering functions, NUCLEAR energy, HETEROSTRUCTURES, TRANSMISSION electron microscopy
Abstract

The contributions of different damage mechanisms in single-layer MoSe2 were studied by investigating different MoSe2/graphene heterostructures by the aberration-corrected high-resolution transmission electron microscopy (AC-HRTEM) at 80 keV. The damage cross-sections were determined by direct counting of atoms in the AC-HRTEM images. The contributions of damage mechanisms such as knock-on damage or ionization effects were estimated by comparing the damage rates in different heterostructure configurations, similarly to what has been earlier done with MoS2. The behaviour of MoSe2 was found to be nearly identical to that of MoS2, which is an unexpected result, as the knock-on mechanism should be suppressed in MoSe2 due to the high mass of Se, as compared to S. [ABSTRACT FROM AUTHOR]

Published
2017
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27. Development of Diagnostics and Data Analysis on ASDEX in 1989

Author

Manso, M., Serra, F., Silva, A., Matias, J., Nunes, F., Neves, J., Pereira, J., Siller, G., Söldner, F., Schubert, R., Hübner, K., Bätzner, R., Hinsch, H., Ingrosso, L., Klein, R., van Calker, C., Robouch, B., Brzosko, J., Kucinski, J., Bomba, B., Bosch, H., Wolle, B., Chu, C., Hofmann, J., Mertens, V., Hartfuss, H., Kurzan, B., Steuer, K., Loch, R., Engelhard, M., Hartinger, T., Müller, E., and Büchse, R.

Published
1990

28. Localized density measurements on ASDEX using microwave reflectometry

Author

Manso, M.E., Serra, F., Silva, A., Matias, José, Nunes, F., Leitão, J., Mata, J., Varela, P., Vergamota, S., Neves, J., Pereira, J., Cupido, L., Soldner, F.X., and Siller, G.

Subjects
Condensed Matter::Materials Science, Physics::Plasma Physics, Physics::Space Physics
Abstract

Reflectometry is based on the propagation and reflection of probing waves in the inhomogeneous fusion plasma.

Published
1990

30. Correlation of maternal serum fetuin/alpha2-HS-glycoprotein concentration with maternal insulin resistance and anthropometric parameters of neonates in normal pregnancy and gestational diabetes

Author

Kalabay, L, primary, Cseh, K, additional, Pajor, A, additional, Baranyi, E, additional, Csakany, GM, additional, Melczer, Z, additional, Speer, G, additional, Kovacs, M, additional, Siller, G, additional, Karadi, I, additional, and Winkler, G, additional

Published
2002
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32. The isotope effect in ASDEX

Author

Bessenrodt-Weberpals, M, primary, Wagner, F, additional, Gehre, O, additional, Giannone, L, additional, Hofmann, J.V, additional, Kallenbach, A, additional, McCormick, K, additional, Mertens, V, additional, Murmann, H.D, additional, Ryter, F, additional, Scott, B.D, additional, Siller, G, additional, Soldner, F.X, additional, Stabler, A, additional, Steuer, K.-H, additional, Stroth, U, additional, Tsois, N, additional, Verbeek, H, additional, and Zoohm, H, additional

Published
1993
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33. Hmode of the W 7-AS stellarator

Author

Erckmann, V., primary, Wagner, F., additional, Baldzuhn, J., additional, Brakel, R., additional, Burhenn, R., additional, Gasparino, U., additional, Grigull, P., additional, Hartfuss, H. J., additional, Hofmann, J. V., additional, Jaenicke, R., additional, Niedermeyer, H., additional, Ohlendorf, W., additional, Rudyj, A., additional, Weller, A., additional, Bogdanov, S. D., additional, Bomba, B., additional, Borschegovsky, A. A., additional, Cattanei, G., additional, Dodhy, A., additional, Dorst, D., additional, Elsner, A., additional, Endler, M., additional, Geist, T., additional, Giannone, L., additional, Hacker, H., additional, Heinrich, O., additional, Herre, G., additional, Hildebrandt, D., additional, Hiznyak, V. I., additional, Il’in, V. I., additional, Kasparek, W., additional, Karger, F., additional, Kick, M., additional, Kubo, S., additional, Kuftin, A. N., additional, Kurbatov, V. I., additional, Lazaros, A., additional, Malygin, S. A., additional, Malygin, V. I., additional, McCormick, K., additional, Müller, G. A., additional, Orlov, V. B., additional, Pech, P., additional, Roi, I. N., additional, Sardei, F., additional, Sattler, S., additional, Schneider, F., additional, Schneider, U., additional, Schüller, P. G., additional, Siller, G., additional, Stroth, U., additional, Tutter, M., additional, Unger, E., additional, Wolff, H., additional, Würsching, E., additional, and Zöpfel, S., additional

Published
1993
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35. Density limit investigations on ASDEX

Author

Stabler, A, primary, McCormick, K, additional, Mertens, V, additional, Muller, E.R, additional, Neuhauser, J, additional, Niedermeyer, H, additional, Steuer, K.-H, additional, Zohm, H, additional, Dollinger, F, additional, Eberhagen, A, additional, Fussmann, G, additional, Gehre, O, additional, Gernhardt, J, additional, Hartinger, T, additional, Hofmann, J.V, additional, Kakoulidis, E, additional, Kaufmann, M, additional, Kyriakakis, G, additional, Lang, R.S, additional, Murmann, H.D, additional, Poschenrieder, W, additional, Ryter, F, additional, Sandmann, W, additional, Schneider, U, additional, Siller, G, additional, Soldner, F.X, additional, Tsois, N, additional, Vollmer, O, additional, and Wagner, F, additional

Published
1992
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37. Physics of enhanced confinement with peaked and broad density profiles

Author

Mertens, V, primary, Bessenrodt-Weberpals, M, additional, Dodel, G, additional, Gehre, O, additional, Giannone, O, additional, Gruber, O, additional, Holzhauer, E, additional, Kallenbach, A, additional, Ryter, F, additional, Soldner, F X, additional, Stroth, U, additional, Wagner, F, additional, Aratari, R, additional, Becker, G, additional, Bosch, H S, additional, Buchse, R, additional, Carlson, A, additional, Chu, C C, additional, Eberhagen, A, additional, Endler, M, additional, Engelhardt, W, additional, Fahrbach, H U, additional, Fussmann, G, additional, Gentle, K W, additional, Gernhardt, J, additional, Herrmann, W, additional, Hofmann, J V, additional, Kardaun, O, additional, Karger, F, additional, Kaufmann, M, additional, Kluber, O, additional, Kornherr, M, additional, Krieger, K, additional, Kurzan, B, additional, Lackner, K, additional, Lang, R, additional, Loch, R, additional, Manso, M E, additional, Mayer, H M, additional, McCormick, K, additional, Meisel, D, additional, Muller, E R, additional, Murmann, H, additional, Neuhauser, J, additional, Niedermeyer, H, additional, Poschenrieder, W, additional, Rohr, H, additional, Rudyj, A, additional, Ruhs, N, additional, Sandmann, W, additional, Schneider, F, additional, Schneider, U, additional, Serra, F, additional, Siller, G, additional, Simmet, E, additional, Stabler, A, additional, Steuer, K H, additional, Vollmer, O, additional, Wira, K, additional, and Zohm, H, additional

Published
1990
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39. Experimental evidence for neoclassical ion transport effects in the H-transition of ASDEX

Author

Wagner, F., Bartiromo, R., Becker, G., Bosch, H.S., Eberhagen, A., Fussmann, G., Gehre, O., Gernhardt, J., Gierke, G.V., Clock, E., Gruber, O., Haas, G., Janeschitz, G., Karger, F., Keilhacker, M., Kislyakov, A., Klüber, O., Kornherr, M., Kotzé, P.B., Lackner, K., Lenoci, M., Lisitano, G., Mahdavi, A., Mayer, H.-M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Roth, J., Schneider, F., Siller, G., Smeulders, P., Söldner, F., Speth, E., Steinmetz, K., Steuer, K.-H., and Vollmer, O.

Abstract

The H-mode develops in conditions of low and controlled recycling. The electron and ion collisionality parameters at the plasma periphery are close to, but above, one in the L-phase and drop below one in the H-phase. The realization of the H-phase is easier in the single-null than in the double-null configuration which has higher power and density thresholds. The increased H-mode accessibility of the single-null configuration requires the ion grad B-drift direction to be towards the stagnation point. The experimental observations are in agreement with a recent theory of the H-transition by Hinton.

Published
1985
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40. Confinement and stability in ASDEX discharges close to the beta limit

Author

Becker, G., Gierke, G.V., Keilhacker, M., Bernhardi, K., Ditte, U., Eberhagen, A., Fussmann, G., Gehre, O., Gernhardt, J., Glock, E., Gruber, O., Haas, G., Hesse, M., Janeschitz, G., Karger, F., Kerner, W., Klober, O., Kornherr, M., Lackner, K., Lisitano, G., Mayer, H.M., Mccormick, K., Meisel, D., Mertens, V., Moller, E.R., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Schneider, F., Siller, G., Smeulders, P., Söldner, F., Speth, E., Steuer, K.-H., and Vollmer, O.

Abstract

The highest ?-values derived from diamagnetic flux measurements in H-discharges are found to be close to the ?-limit due to kink and ideal ballooning modes. Both energy and particle confinement are degraded in these discharges and do not recover during the injection period. The energy confinement time decreases by a typical factor of two, the electron thermal diffusivity being correspondingly enhanced. Electron heat conduction is again found to be the dominant energy loss channel. The degradation of confinement close to the ideal-MHD limit suggests that kink and ballooning instabilities occur and are responsible for the enhanced transport. This conclusion is supported by the correlation with the pressure profile and by the result that global and local transport do not change in a reference discharge which is stable against ideal-MHD modes.

Published
1985
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41. Heating and confinement in the ion cyclotron range of frequencies on the divertor tokamak ASDEX

Author

Steinmetz, K., Niedermeyer, H., Noterdaeme, J.-M., Wagner, F., Wesner, F., Bäumler, J., Becker, G., Becker, W., Bosch, H.S., Brambilla, M., Braun, F., Bracken, H., Dodel, G., Eberhagen, A., Fritsch, R., Fussmann, G., Gehre, O., Gernhardt, J., von Gierke, G., Glock, E., Gruber, O., Haas, G., Hofmann, J., Hofmeister, F., Holzhauer, E., Izvozchikov, A.B., Janeschitz, G., Karger, F., Keilhacker, M., Kislyakov, A., Klüber, O., Kornherr, M., Kotze, P.B., Lackner, K., Lisitano, G., Van Mark, E., Mast, K.F., Mayer, H.-M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Murmann, H.D., Neuhauser, J., Pietrzyk, Z.A., Poschenrieder, W., Puri, S., Rapp, H., Roth, J., Rudyj, A., Ryter, F., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Söll, M., Speth, E., Söldner, F.X., Stäbler, A., Steuer, K.-H., Vollmer, O., Wedler, H., and Zasche, D.

Abstract

The paper summarizes the experiments performed with ion cyclotron resonance heating (ICRH) on ASDEX, from November 1984 until March 1986; the most interesting results are reported and discussed in detail. Heating and confinement studies using the hydrogen second harmonic scheme and the hydrogen minority scheme (PIC< 2.6 MW, tIC< 1.5 s) show a typical L-mode behaviour, i.e. a power dependent confinement degradation, which is rather similar to that found with neutral beam injection (NBI) heating. ICRH is accompanied by a slightly improved particle and energy confinement compared with that of NBI; this is also true for a combined ICRH + NBI scheme, up to Ptot? 4.5 MW, absorbed in the plasma. Particular efforts have been devoted to investigations of the second harmonic regime in H/D plasmas with nH/ne? 0.1 - 1, with a view to heating mixtures in reactor relevant plasmas. The achievement of H-mode transitions with ICRH alone in the hydrogen minority scheme at an absorbed RF power of about 1.1 MW supports the assumption of common confinement properties in auxiliary heated tokamaks, since they appear to be widely independent of the additional heating method. ICRH specific impurity problems, such as the strong release of iron from the vessel walls, have been overcome by applying extensive in situ wall carbonization. The mechanisms responsible for impurity generation have partly been identified and analysed; however, the problem still remains to be solved. Impurities preferentially released from the ICRH antenna do not pose problems.

Published
1989
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42. Retention of gaseous and target produced impurities in the ASDEX divertor chamber

Author

Janeschitz, G., Fussmann, G., Kotzé, P.B., Mahdavi, A., Roth, J., Taglauer, E., Bartiromo, R., Becker, G., Bosch, H.S., Eberhagen, A., Gehre, O., Gernhardt, J., Von Gierke, G., Glock, E., Gruber, O., Haas, C., Karger, F., Keilhacker, M., Kislyakov, A., Klüber, O., Kornherr, M., Lenoci, M., Lisitano, G., Mayer, H.-M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Schneider, F., Siller, G., Smeulders, P., Söldner, F.X., Speth, E., Steinmetz, K., Steuer, K.-H., Vollmer, O., Wagner, F., and Wesner, F.

Abstract

This letter reports on two experiments undertaken to evaluate the retention of gaseous and target produced impurities in the ASDEX divertor. The retention for gaseous impurities was determined by puffing Ar into the main chamber and simulating the time behaviour of the Ar XVI line intensity with a time dependent impurity transport code including a simple divertor model. During Ohmic heating a factor of 3 and 4.5 enhancement of impurity retention if found relative to the vacuum time constant (90 ms) of the divertor chamber, for ne= 2 × 1013cm?3and ne= 3.5 × 1013cm?3, respectively, while a drastic breakdown of the retention occurs during high power NI heating. - To deduce the retention of impurities generated at the divertor plates, a segment (3.5%) of the plates was covered with copper, a metal previously not used in ASDEX. By measuring the Cu influx at the target plates and the line intensity of the Cu XX line (11.38 Å) in the core plasma and by using the transport code, it is found that during NI heating (ne? 2 × 1013cm?3) Cu atoms originating from the target plates have a ? 3.5 times higher probability to penetrate into the core plasma than if they had when originating from the main chamber walls.

Published
1986
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43. Experimental study of non-thermal electron generation by lower hybrid waves in the ASDEX tokamak

Author

Bartiromo, R., Hesse, M., Söldner, F.X., Burhenn, R., Fussmann, G., Leuterer, F., Murmann, H., Eckhartt, D., Eberhagen, A., Giuliana, A., Becker, G., Bosch, H.S., Brambilla, M., Brocken, H., Derfler, H., Gehre, O., Gernhardt, J., von Gierke, G., Glock, E., Gruber, O., Haas, G., Janeschitz, G., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Kotzé, P.B., Lenoci, M., Lisitano, G., Mayer, H.M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Münich, M., Niedermeyer, H., Poschenrieder, W., Rapp, H., Röhr, H., Ruhs, N., Ryter, F., Schmitter, K.H., Schneider, F., Siller, G., Smeulders, P., Steuer, K.-H., Vien, T., Vlases, G., Wagner, F., von Woyna, F., and Zouhar, M.

Abstract

High resolution X-ray spectroscopy was used to evaluate the fractional population of non-thermal electrons generated when electromagnetic waves in the lower hybrid frequency range are launched in the ASDEX tokamak. In complete current drive discharges a typical value of 1% is found for this parameter, in agreement with a theoretical estimate. Furthermore, it is shown that the toroidal electric field is very effective in enhancing tail electron generation, as confimed by ? measurements, and that the wave penetration to the plasma centre is inhibited when interaction of the waves with plasma ions is the dominant damping mechanism.

Published
1986
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44. Analysis of the invariance property of the electron temperature during auxiliary heating in ASDEX

Author

Murmann, H., Wagner, F., Becker, G., Bosch, H., Brocken, H., Eberhagen, A., Fußmann, G., Gehre, O., Gernhardt, J., Gierke, G., Glock, E., Gruber, O., Haas, G., Hofmann, J., Izvozchikov, A., Janeschitz, G., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Lackner, K., Lenoci, M., Lisitano, G., Mast, F., Mayer, H., McCormick, K., Meisel, D., Mertens, V., Mueller, E., Niedermeyer, H., Pietrzyk, A., Poschenrieder, W., Rapp, H., Röhr, H., Roth, J., Ryter, F., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Söldner, F., Steuer, K., and Zasche, D.

Published
1986

45. MHD-Activities during pellet injection into ohmically and beam heated plasmas on ASDEX

Author

Kornherr, M., Gehre, O., Grassie, K., Klüber, O., Mertens, V., Becker, G., Bosch, H., Brocken, H., Büchl, K., Carlson, A., Eberhagen, A., Dodel, G., Fahrbach, H., Fußmann, G., Gernhardt, J., Gierke, G., Glock, E., Gruber, O., Haas, G., Herrmann, W., Hofmann, J., Izvozchikov, A., Holzhauer, E., Hübner, K., Janeschitz, G., Karger, F., Kaufmann, M., Lackner, K., Lang, R., Lenoci, M., Lisitano, G., Mast, F., Mayer, H., McCormick, K., Meisel, D., Mueller, E., Murmann, H., Neuhauser, J., Niedermeyer, H., Pietrzyk, A., Poschenrieder, W., Rapp, H., Riedler, H., Rudyj, A., Sandmann, W., Schneider, F., Setzensack, C., Siller, G., Speth, E., Söldner, F., Stäbler, A., Steinmetz, K., Steuer, K., Tsois, N., Ugniewski, S., Vollmer, O., Wagner, F., and Zasche, D.

Published
1987

46. Impurity production during ICRF heating

Author

Janeschitz, G., Fußmann, G., Noterdaeme, J., Steinmetz, K., Izvozchikov, A., Ryter, F., Becker, G., Bosch, H., Brocken, H., Eberhagen, A., Gehre, O., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Lenoci, M., Lisitano, G., Mast, F., Mayer, H., McCormick, K., Meisel, D., Mertens, V., Mueller, E., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Röhr, H., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Söldner, F., Speth, E., Steuer, K., Ugniewski, S., Vollmer, O., Wagner, F., Wesner, F., and Zasche, D.

Published
1986

47. Probe measurements of plasma inhomogeneities in the scrape-off layer of ASDEX during LH

Author

Lenoci, M., Haas, G., Becker, G., Bosch, H., Brocken, H., Eberhagen, A., Eckhartt, D., Hofmann, G., Gehre, O., Gernhardt, J., Gierke, G., Glock, E., Gruber, O., Hofmann, J., Izvozchikov, A., Janeschitz, G., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Lackner, K., Leuterer, F., Lisitano, G., Mast, F., Mayer, H., McCormick, K., Meisel, D., Mertens, V., Müller, E., Murmann, H., Niedermeyer, H., Pietrzyk, A., Poschenrieder, W., Rapp, H., Röhr, H., Roth, J., Ryter, F., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Söldner, F., Steuer, K., Tsois, N., Wagner, F., and Zasche, D.

Published
1986

48. The study of runaway electron confinement to probe the electromagnetic turbulence in OH, L-and H-discharges of ASDEX

Author

Wagner, F., Fußmann, G., Becker, G., Bosch, H., Brocken, H., Carlson, A., Eberhagen, A., Dodel, G., Fahrbach, H., Gehre, O., Gernhardt, J., Gierke, G., Glock, E., Gruber, O., Haas, G., Herrmann, W., Hofmann, J., Izvozchikov, A., Holzhauer, E., Hübner, K., Janeschitz, G., Karger, F., Kaufmann, M., Klüber, O., Kornherr, M., Lackner, K., Lenoci, M., Lisitano, G., Mast, F., Mayer, H., McCormick, K., Meisel, D., Mertens, V., Müller, E., Murmann, H., Neuhauser, J., Niedermeyer, H., Pietrzyk, A., Poschenrieder, W., Rapp, H., Rudy, A., Schneider, F., Setzensack, C., Siller, G., Speth, E., Söldner, F., Steinmetz, K., Steuer, K., Tsois, N., Ugniewski, S., Vollmer, O., and Zasche, D.

Published
1987

49. Total Radiation Losses and Global Energy Balance in Neutral-Beam-Heated ASDEX Discharges

Author

Mueller, E., Bein, B., Niedermeyer, H., Behringer, K., Bernhardi, K., Eberhagen, A., Fußmann, G., Gehre, O., Gernhardt, J., Gierke, G., Glock, E., Haas, G., Karger, F., Keilhacker, M., Kissel, S., Klüber, O., Kornherr, M., Lisitano, G., Lister, G., Mayer, H., McCormick, K., Meisel, D., Murmann, H., Poschenrieder, W., Rapp, H., Schneider, F., Siller, G., Smeulders, P., Soeldner, F., Speth, E., Stäbler, A., Steinmetz, K., Steuer, K., Szymannski, Z., Venus, G., Vollmer, O., and Wagner, F.

Published
1983

50. Comparison of ICRH and LH accelerated hydrogen ions in NI heated ASDEX plasmas

Author

Ryter, F., Brocken, H., Izvozchikov, A., Leuterer, F., Maaßberg, H., Mayer, H., Soeldner, F., Steinmetz, K., Becker, G., Bosch, H., Eberhagen, A., Eckhartt, D., Fußmann, G., Gehre, O., Gernhardt, J., Gierke, G., Glock, E., Gruber, O., Haas, G., Hofmann, J., Janeschitz, G., Karger, F., Keilhacker, M., Klüber, O., Kornherr, M., Lackner, K., Lenoci, M., Lisitano, G., Mast, F., McCormick, K., Meisel, D., Mertens, V., Müller, E., Murmann, H., Niedermeyer, H., Noterdaeme, J., Pietrzyk, A., Poschenrieder, W., Rapp, H., Riedler, H., Röhr, H., Roth, J., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Speth, E., Steuer, K., Vollmer, O., Wagner, F., Wesner, F., and Zasche, D.

Published
1986

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