µCF experiments in thin deuterium films and progress towards slow µ− production

ISSN:
1572-9540
Source:
Springer Online Journal Archives 1860-2000
Topics:
Physics
Notes:
Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
Type of Medium:
Electronic Resource
URL:
_version_ 1798297426743787520
autor Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
autorsonst Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
book_url http://dx.doi.org/10.1007/BF02227666
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLM194320286
iqvoc_descriptor_title iqvoc_00000080:production
issn 1572-9540
journal_name Hyperfine interactions
materialart 1
notes Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
package_name Springer
publikationsjahr_anzeige 1996
publikationsjahr_facette 1996
publikationsjahr_intervall 8004:1995-1999
publikationsjahr_sort 1996
publisher Springer
reference 101-102 (1996), S. 539-546
search_space articles
shingle_author_1 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
shingle_author_2 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
shingle_author_3 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
shingle_author_4 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
shingle_catch_all_1 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
µCF experiments in thin deuterium films and progress towards slow µ− production
Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
1572-9540
15729540
Springer
shingle_catch_all_2 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
µCF experiments in thin deuterium films and progress towards slow µ− production
Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
1572-9540
15729540
Springer
shingle_catch_all_3 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
µCF experiments in thin deuterium films and progress towards slow µ− production
Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
1572-9540
15729540
Springer
shingle_catch_all_4 Strasser, P.
Ishida, K.
Sakamoto, S.
Shimomura, K.
Kawamura, N.
Torikai, E.
Iwasaki, M.
Nagamine, K.
µCF experiments in thin deuterium films and progress towards slow µ− production
Abstract Muon-catalyzed fusion was investigated in thin solid deuterium films to determine the experimental feasibility of slow µ− production by detection of dd fusion protons as well as slow µ− collection utilizing a large-acceptance magnetic spectrometer. The spatial distribution of the fusion reaction in the film was extracted, and an optimum thickness for slow µ− emission was deduced. Collected 10 keV µ− were also successfully detected. However, the dd fusion yield being insufficient, we were not able to distinguish slow µ− via µCF from degraded µ−.
1572-9540
15729540
Springer
shingle_title_1 µCF experiments in thin deuterium films and progress towards slow µ− production
shingle_title_2 µCF experiments in thin deuterium films and progress towards slow µ− production
shingle_title_3 µCF experiments in thin deuterium films and progress towards slow µ− production
shingle_title_4 µCF experiments in thin deuterium films and progress towards slow µ− production
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source_archive Springer Online Journal Archives 1860-2000
timestamp 2024-05-06T10:07:48.590Z
titel µCF experiments in thin deuterium films and progress towards slow µ− production
titel_suche µCF experiments in thin deuterium films and progress towards slow µ− production
topic U
uid nat_lic_papers_NLM194320286