Zobrazeno 1 - 10
of 137
pro vyhledávání: '"Eisel, T"'
Autor:
Kurfürst, C., Dehning, B., Sapinski, M., Bartosik, M.R., Eisel, T., Fabjan, C., Rementeria, C.A., Griesmayer, E., Eremin, V., Verbitskaya, E., Zabrodskii, A., Fadeeva, N., Tuboltsev, Y., Eremin, I., Egorov, N., Härkönen, J., Luukka, P., Tuominen, E.
Publikováno v:
In Nuclear Inst. and Methods in Physics Research, A 11 May 2015 782:149-158
Publikováno v:
In Cryogenics November-December 2014 64:10-15
Publikováno v:
In International Journal of Heat and Mass Transfer 2011 54(9):2154-2162
Akademický článek
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Autor:
Spiller, P., Blell, U., Bozyk, L., Ceballos Velasco, J., Eisel, T., Fischer, E., König, Hans Günter, Kornilov, V., Kowina, P., Maier, J. P., Mierau, A., Mühle, C., Omet, C., Ondreka, David, Ramakers, H., Pyka, Niels, Rottländer, P., Roux, C., Schnizer, P., Wilfert, S., Winters, D.
Publikováno v:
Darmstadt : GSI Helmholtzzentrum für Schwerionenforschung, GSI Report 2015-1, 469-470 p. (2015). doi:10.15120/GR-2015-1-FG-SIS100-01
Scientific Report 2014
Scientific Report 2014
GSI Scientific Report 2014 - GSI Report 2015-1
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::cf844d2d53d3ceee2673d583f3f341e7
https://repository.gsi.de/record/184182
https://repository.gsi.de/record/184182
Autor:
Streicher, B., Eisel, T., Velasco, J. C., Chorowski, M., Iluk, A., Duda, P., Kauschke, M., Polinski, J., Täschner, A., Wamers, F., Kollmus, H.
Publikováno v:
Darmstadt : GSI Helmholtzzentrum für Schwerionenforschung, GSI Report 2015-1, 506 p. (2015). doi:10.15120/GR-2015-1-FG-CS-02
Scientific Report 2014
Scientific Report 2014
GSI Scientific Report 2014 - GSI Report 2015-1
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::300033e8466bb9da17a407f8c81fde95
Autor:
Kellerbauer A. [1], Allkofer Y. [2], Amsler C. [2] : Belov A.S. [3], Bonomi G. [4], Bräunig P. [5], Bremer J. [6], Brusa R.S. [7], Burghart G. [6], Cabaret L. [8], Canali C. [2], Castelli F. [9], Chlouba K. [10], Cialdi S. [9], Comparat D. [8], Consolati G. [11], Dassa L. [4], Di Noto L. [7], Donzella A. [4], Doser M. [6], Dudarev A. [6], Eisel T. [6], Ferragut R. [11], Ferrari G. [12], Fontana A. [13], Genova P. [14], Giammarchi M. [15], Gligorova A. [16], Gninenko S.N. [3], Haider S. [6], Hansen J.P. [16] : Haug F. [6 ], Hogan S.D. [17], Jørgensen L.V. [6], Kaltenbacher T. [6], Krasnický D. [18], Lagomarsino V. [18], Mariazzi S. [19], Matveev V.A. [3 ], Merkt F. [17], Moia F. [11], Nebbia G. [20], Nédélec P. [21], Niinikoski T. [6], Oberthaler M.K. [5], Perini D. [6], Petrácek V. [10], Prelz F. [15], Prevedelli M. [22], Regenfus C. [2], Riccardi C. [14], Rochet J. [2], Røhne O. [23], Rotondi A. [14], Sacerdoti M. [15], Sandaker H. [16], pacek M. [10], Storey J. [2], Testera G. [24], Tokareva A. [3], Trezzi D. [15], Vaccarone R. [24], Villa F.[9], Warring U. [1], Zavatarelli S. [24], Zenoni A. [4]
Publikováno v:
Hyperfine interactions (Dordr., Online) 209 (2012): 43–49.
info:cnr-pdr/source/autori:Kellerbauer A. [1] ; Allkofer Y. [2] ; Amsler C. [2] : Belov A.S. [3], Bonomi G. [4] ; Bräunig P. [5] ; Bremer J. [6] ; Brusa R.S. [7] ; Burghart G. [6] ; Cabaret L. [8] ; Canali C. [2] ; Castelli F. [9] ; Chlouba K. [10] ; Cialdi S. [9] ; Comparat D. [8] ; Consolati G. [11] ; Dassa L. [4] ; Di Noto L. [7] ; Donzella A. [4] ; Doser M. [6] ; Dudarev A. [6] ; Eisel T. [6] ; Ferragut R. [11] ; Ferrari G. [12] ; Fontana A. [13] ; Genova P. [14] ; Giammarchi M. [15] ; Gligorova A. [16] ; Gninenko S.N. [3] ; Haider S. [6] ; Hansen J.P. [16] : Haug F. [6 ] ; Hogan S.D. [17] ; Jørgensen L.V. [6] ; Kaltenbacher T. [6] ; Krasnický D. [18] ; Lagomarsino V. [18] ; Mariazzi S. [19] ; Matveev V.A. [3 ] ; Merkt F. [17] ; Moia F. [11] ; Nebbia G. [20] ; Nédélec P. [21] ; Niinikoski T. [6] ; Oberthaler M.K. [5] ; Perini D. [6] ; Petrácek V. [10] ; Prelz F. [15] ; Prevedelli M. [22] ; Regenfus C. [2] ; Riccardi C. [14] ; Rochet J. [2] ; Røhne O. [23] ; Rotondi A. [14] ; Sacerdoti M. [15] ; Sandaker H. [16] ; ?pacek M. [10] ; Storey J. [2] ; Testera G. [24] ; Tokareva A. [3] ; Trezzi D. [15] ; Vaccarone R. [24] ; Villa F.[9] ; Warring U. [1] ; Zavatarelli S. [24] ; Zenoni A. [4]/titolo:The AEGIS experiment at CERN: Measuring the free fall of antihydrogen/doi:/rivista:Hyperfine interactions (Dordr., Online)/anno:2012/pagina_da:43/pagina_a:49/intervallo_pagine:43–49/volume:209
info:cnr-pdr/source/autori:Kellerbauer A. [1] ; Allkofer Y. [2] ; Amsler C. [2] : Belov A.S. [3], Bonomi G. [4] ; Bräunig P. [5] ; Bremer J. [6] ; Brusa R.S. [7] ; Burghart G. [6] ; Cabaret L. [8] ; Canali C. [2] ; Castelli F. [9] ; Chlouba K. [10] ; Cialdi S. [9] ; Comparat D. [8] ; Consolati G. [11] ; Dassa L. [4] ; Di Noto L. [7] ; Donzella A. [4] ; Doser M. [6] ; Dudarev A. [6] ; Eisel T. [6] ; Ferragut R. [11] ; Ferrari G. [12] ; Fontana A. [13] ; Genova P. [14] ; Giammarchi M. [15] ; Gligorova A. [16] ; Gninenko S.N. [3] ; Haider S. [6] ; Hansen J.P. [16] : Haug F. [6 ] ; Hogan S.D. [17] ; Jørgensen L.V. [6] ; Kaltenbacher T. [6] ; Krasnický D. [18] ; Lagomarsino V. [18] ; Mariazzi S. [19] ; Matveev V.A. [3 ] ; Merkt F. [17] ; Moia F. [11] ; Nebbia G. [20] ; Nédélec P. [21] ; Niinikoski T. [6] ; Oberthaler M.K. [5] ; Perini D. [6] ; Petrácek V. [10] ; Prelz F. [15] ; Prevedelli M. [22] ; Regenfus C. [2] ; Riccardi C. [14] ; Rochet J. [2] ; Røhne O. [23] ; Rotondi A. [14] ; Sacerdoti M. [15] ; Sandaker H. [16] ; ?pacek M. [10] ; Storey J. [2] ; Testera G. [24] ; Tokareva A. [3] ; Trezzi D. [15] ; Vaccarone R. [24] ; Villa F.[9] ; Warring U. [1] ; Zavatarelli S. [24] ; Zenoni A. [4]/titolo:The AEGIS experiment at CERN: Measuring the free fall of antihydrogen/doi:/rivista:Hyperfine interactions (Dordr., Online)/anno:2012/pagina_da:43/pagina_a:49/intervallo_pagine:43–49/volume:209
After the first production of cold antihydrogen by the ATHENA and ATRAP experiments ten years ago, new second-generation experiments are aimed at measuring the fundamental properties of this anti-atom. The goal of AEGIS (Antimatter Experiment: Gravit
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=cnr_________::3e6d266bb6ea2dbe679e4f968ae7c12b
https://publications.cnr.it/doc/207711
https://publications.cnr.it/doc/207711
Publikováno v:
Darmstadt : GSI Helmholtzzentrum für Schwerionenforschung, GSI Report 2014-1, 325 p. (2014). doi:10.15120/GR-2014-1-FG-SIS100-02
Scientific Report 2013
Scientific Report 2013
GSI Scientific Report 2013 - GSI Report 2014-1
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::99f78eb03317e4edda999042ef885d7b
https://repository.gsi.de/record/68024
https://repository.gsi.de/record/68024
At the triplet magnets, close to the interaction regions of the Large Hadron Collider (LHC), the current Beam Loss Monitoring (BLM) system is sensitive to the debris from the collision points. For future beams, with higher energy and intensity the ex
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od________65::54a43336e755ad18028c020f79d573c3
http://cds.cern.ch/record/1638364
http://cds.cern.ch/record/1638364
Autor:
Kurfuerst, C, Rementeria, C A, Bartosik, M, Dehning, B, Eisel, T, Sapinski, M, Eremin, V, Verbitskaya, E, Fabjan, C, Griesmayer, E
At the triplet magnets, close to the interaction regions of the LHC, the current Beam Loss Monitoring system is sensitive to the particle showers resulting from the collision of the two beams. For the future, with beams of higher energy and intensity
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od________65::a7a4f8d799116b437d1c4a22bd63d7bb
http://cds.cern.ch/record/1595259
http://cds.cern.ch/record/1595259