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Radioisotope Detection with the Argonne FN Tandem Accelerator

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Bibliographische Detailangaben
Zeitschriftentitel: Radiocarbon
Personen und Körperschaften: Kutschera, Walter, Henning, Walter, Paul, Michael, Stephenson, E J, Yntema, J L
In: Radiocarbon, 22, 1980, 3, S. 807-815
Format: E-Article
Sprache: Englisch
veröffentlicht:
Cambridge University Press (CUP)
Schlagwörter:
General Earth and Planetary Sciences
Archeology
author_facet Kutschera, Walter
Henning, Walter
Paul, Michael
Stephenson, E J
Yntema, J L
Kutschera, Walter
Henning, Walter
Paul, Michael
Stephenson, E J
Yntema, J L
author Kutschera, Walter
Henning, Walter
Paul, Michael
Stephenson, E J
Yntema, J L
spellingShingle Kutschera, Walter
Henning, Walter
Paul, Michael
Stephenson, E J
Yntema, J L
Radiocarbon
Radioisotope Detection with the Argonne FN Tandem Accelerator
General Earth and Planetary Sciences
Archeology
author_sort kutschera, walter
spelling Kutschera, Walter Henning, Walter Paul, Michael Stephenson, E J Yntema, J L 0033-8222 1945-5755 Cambridge University Press (CUP) General Earth and Planetary Sciences Archeology http://dx.doi.org/10.1017/s0033822200010183 <jats:p>A standard heavy ion nuclear structure facility has been used to detect several long-lived radioisotopes by counting the accelerated ions. The problem of eliminating strong isobaric background beams has been solved by combining the energy loss dispersion through a uniform A<jats:italic>l</jats:italic> foil stack with the high momentum resolution of an Enge split-pole magnetic spectrograph. Radioisotope concentrations in the following ranges have been measured: <jats:sup>14</jats:sup>C/<jats:sup>12</jats:sup>C = 10<jats:sup>–12</jats:sup> to 10<jats:sup>–13</jats:sup>, <jats:sup>26</jats:sup>A<jats:italic>l</jats:italic>/<jats:sup>27</jats:sup>A<jats:italic>l</jats:italic> = 10<jats:sup>–10</jats:sup> to 10<jats:sup>–12</jats:sup>, <jats:sup>32</jats:sup>Si/Si = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–14</jats:sup>, <jats:sup>36</jats:sup>C<jats:italic>l</jats:italic>/C<jats:italic>l</jats:italic> = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–11</jats:sup>.</jats:p> Radioisotope Detection with the Argonne FN Tandem Accelerator Radiocarbon
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title Radioisotope Detection with the Argonne FN Tandem Accelerator
title_unstemmed Radioisotope Detection with the Argonne FN Tandem Accelerator
title_full Radioisotope Detection with the Argonne FN Tandem Accelerator
title_fullStr Radioisotope Detection with the Argonne FN Tandem Accelerator
title_full_unstemmed Radioisotope Detection with the Argonne FN Tandem Accelerator
title_short Radioisotope Detection with the Argonne FN Tandem Accelerator
title_sort radioisotope detection with the argonne fn tandem accelerator
topic General Earth and Planetary Sciences
Archeology
url http://dx.doi.org/10.1017/s0033822200010183
publishDate 1980
physical 807-815
description <jats:p>A standard heavy ion nuclear structure facility has been used to detect several long-lived radioisotopes by counting the accelerated ions. The problem of eliminating strong isobaric background beams has been solved by combining the energy loss dispersion through a uniform A<jats:italic>l</jats:italic> foil stack with the high momentum resolution of an Enge split-pole magnetic spectrograph. Radioisotope concentrations in the following ranges have been measured: <jats:sup>14</jats:sup>C/<jats:sup>12</jats:sup>C = 10<jats:sup>–12</jats:sup> to 10<jats:sup>–13</jats:sup>, <jats:sup>26</jats:sup>A<jats:italic>l</jats:italic>/<jats:sup>27</jats:sup>A<jats:italic>l</jats:italic> = 10<jats:sup>–10</jats:sup> to 10<jats:sup>–12</jats:sup>, <jats:sup>32</jats:sup>Si/Si = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–14</jats:sup>, <jats:sup>36</jats:sup>C<jats:italic>l</jats:italic>/C<jats:italic>l</jats:italic> = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–11</jats:sup>.</jats:p>
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author Kutschera, Walter, Henning, Walter, Paul, Michael, Stephenson, E J, Yntema, J L
author_facet Kutschera, Walter, Henning, Walter, Paul, Michael, Stephenson, E J, Yntema, J L, Kutschera, Walter, Henning, Walter, Paul, Michael, Stephenson, E J, Yntema, J L
author_sort kutschera, walter
container_issue 3
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description <jats:p>A standard heavy ion nuclear structure facility has been used to detect several long-lived radioisotopes by counting the accelerated ions. The problem of eliminating strong isobaric background beams has been solved by combining the energy loss dispersion through a uniform A<jats:italic>l</jats:italic> foil stack with the high momentum resolution of an Enge split-pole magnetic spectrograph. Radioisotope concentrations in the following ranges have been measured: <jats:sup>14</jats:sup>C/<jats:sup>12</jats:sup>C = 10<jats:sup>–12</jats:sup> to 10<jats:sup>–13</jats:sup>, <jats:sup>26</jats:sup>A<jats:italic>l</jats:italic>/<jats:sup>27</jats:sup>A<jats:italic>l</jats:italic> = 10<jats:sup>–10</jats:sup> to 10<jats:sup>–12</jats:sup>, <jats:sup>32</jats:sup>Si/Si = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–14</jats:sup>, <jats:sup>36</jats:sup>C<jats:italic>l</jats:italic>/C<jats:italic>l</jats:italic> = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–11</jats:sup>.</jats:p>
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spelling Kutschera, Walter Henning, Walter Paul, Michael Stephenson, E J Yntema, J L 0033-8222 1945-5755 Cambridge University Press (CUP) General Earth and Planetary Sciences Archeology http://dx.doi.org/10.1017/s0033822200010183 <jats:p>A standard heavy ion nuclear structure facility has been used to detect several long-lived radioisotopes by counting the accelerated ions. The problem of eliminating strong isobaric background beams has been solved by combining the energy loss dispersion through a uniform A<jats:italic>l</jats:italic> foil stack with the high momentum resolution of an Enge split-pole magnetic spectrograph. Radioisotope concentrations in the following ranges have been measured: <jats:sup>14</jats:sup>C/<jats:sup>12</jats:sup>C = 10<jats:sup>–12</jats:sup> to 10<jats:sup>–13</jats:sup>, <jats:sup>26</jats:sup>A<jats:italic>l</jats:italic>/<jats:sup>27</jats:sup>A<jats:italic>l</jats:italic> = 10<jats:sup>–10</jats:sup> to 10<jats:sup>–12</jats:sup>, <jats:sup>32</jats:sup>Si/Si = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–14</jats:sup>, <jats:sup>36</jats:sup>C<jats:italic>l</jats:italic>/C<jats:italic>l</jats:italic> = 10<jats:sup>–8</jats:sup> to 10<jats:sup>–11</jats:sup>.</jats:p> Radioisotope Detection with the Argonne FN Tandem Accelerator Radiocarbon
spellingShingle Kutschera, Walter, Henning, Walter, Paul, Michael, Stephenson, E J, Yntema, J L, Radiocarbon, Radioisotope Detection with the Argonne FN Tandem Accelerator, General Earth and Planetary Sciences, Archeology
title Radioisotope Detection with the Argonne FN Tandem Accelerator
title_full Radioisotope Detection with the Argonne FN Tandem Accelerator
title_fullStr Radioisotope Detection with the Argonne FN Tandem Accelerator
title_full_unstemmed Radioisotope Detection with the Argonne FN Tandem Accelerator
title_short Radioisotope Detection with the Argonne FN Tandem Accelerator
title_sort radioisotope detection with the argonne fn tandem accelerator
title_unstemmed Radioisotope Detection with the Argonne FN Tandem Accelerator
topic General Earth and Planetary Sciences, Archeology
url http://dx.doi.org/10.1017/s0033822200010183