Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation

Marot, G. ; Rossat, M. ; Freund, A. ; Joksch, S. ; Kawata, H. ; Zhang, L. ; Ziegler, E. ; Berman, L. ; Chapman, D. ; Hastings, J. B. ; Iarocci, M.

[S.l.] : American Institute of Physics (AIP)
Published 1992
ISSN:
1089-7623
Source:
AIP Digital Archive
Topics:
Physics
Electrical Engineering, Measurement and Control Technology
Notes:
In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1063/1.1142736
_version_ 1798289705410756609
autor Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
autorsonst Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
book_url http://dx.doi.org/10.1063/1.1142736
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLZ219489858
issn 1089-7623
journal_name Review of Scientific Instruments
materialart 1
notes In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
package_name American Institute of Physics (AIP)
publikationsjahr_anzeige 1992
publikationsjahr_facette 1992
publikationsjahr_intervall 8009:1990-1994
publikationsjahr_sort 1992
publikationsort [S.l.]
publisher American Institute of Physics (AIP)
reference 63 (1992), S. 477-480
search_space articles
shingle_author_1 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
shingle_author_2 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
shingle_author_3 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
shingle_author_4 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
shingle_catch_all_1 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
1089-7623
10897623
American Institute of Physics (AIP)
shingle_catch_all_2 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
1089-7623
10897623
American Institute of Physics (AIP)
shingle_catch_all_3 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
1089-7623
10897623
American Institute of Physics (AIP)
shingle_catch_all_4 Marot, G.
Rossat, M.
Freund, A.
Joksch, S.
Kawata, H.
Zhang, L.
Ziegler, E.
Berman, L.
Chapman, D.
Hastings, J. B.
Iarocci, M.
Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
In this paper, we report on the design and x-ray diffraction properties of cryocooled silicon single crystals exposed to the following wiggler beams: power density: 150 W/mm2, total power: 75 W and power density: 0.5 W/mm2, total power: 100 W. First, thermomechanical and engineering aspects of low-temperature crystal cooling are discussed, leading to two basic cooling geometries: internal cooling and side cooling. Experimental tests of both these cooling schemes at NSLS on beam lines X25 and X17 are then described and discussed. Finally, engineering problems related to the integration of cryogenic cooling on ESRF beam lines are presented.
1089-7623
10897623
American Institute of Physics (AIP)
shingle_title_1 Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
shingle_title_2 Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
shingle_title_3 Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
shingle_title_4 Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
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timestamp 2024-05-06T08:05:03.712Z
titel Cryogenic cooling of monochromators : Proceedings of the 4th international conference on synchrotron radiation instrumentation
titel_suche Cryogenic cooling of monochromators
Proceedings of the 4th international conference on synchrotron radiation instrumentation
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