Interstellar Fe 60 on the surface of the moon

L. Fimiani; D. L. Cook; T. Faestermann; J. M. Gómez-Guzmán; K. Hain; G. Herzog; K. Knie; G. Korschinek; P. Ludwig; J. Park; R. C. Reedy; G. Rugel

doi:10.1103/PhysRevLett.116.151104

Interstellar Fe 60 on the surface of the moon

L. Fimiani, D. L. Cook, T. Faestermann, J. M. Gómez-Guzmán, K. Hain, G. Herzog, K. Knie, G. Korschinek, P. Ludwig, J. Park, R. C. Reedy, G. Rugel

School of Arts and Sciences, Chemistry & Chemical Biology

Research output: Contribution to journal › Article › peer-review

102 Scopus citations

Abstract

A dying massive star ends in a supernova explosion ejecting a large fraction of its mass into the interstellar medium. If this happens nearby, part of the ejecta might end on Solar System bodies and, in fact, radioactive Fe60 has been detected on the Pacific ocean floor in about 2 Ma old layers. Here, we report on the detection of this isotope also in lunar samples, originating presumably from the same event. The concentration of the cosmic ray produced isotope Mn53, measured in the same samples, proves the supernova origin of the Fe60. From the Fe60 concentrations found we deduce a reliable value for the local interstellar fluence in the range of 1×108 at/cm2. Thus, we obtain constraints on the recent and nearby supernova(e).

Original language	English (US)
Article number	151104
Journal	Physical review letters
Volume	116
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.116.151104
State	Published - Apr 13 2016

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.116.151104

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title = "Interstellar Fe 60 on the surface of the moon",

abstract = "A dying massive star ends in a supernova explosion ejecting a large fraction of its mass into the interstellar medium. If this happens nearby, part of the ejecta might end on Solar System bodies and, in fact, radioactive Fe60 has been detected on the Pacific ocean floor in about 2 Ma old layers. Here, we report on the detection of this isotope also in lunar samples, originating presumably from the same event. The concentration of the cosmic ray produced isotope Mn53, measured in the same samples, proves the supernova origin of the Fe60. From the Fe60 concentrations found we deduce a reliable value for the local interstellar fluence in the range of 1×108 at/cm2. Thus, we obtain constraints on the recent and nearby supernova(e).",

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AU - Fimiani, L.

AU - Cook, D. L.

AU - Faestermann, T.

AU - Gómez-Guzmán, J. M.

AU - Hain, K.

AU - Herzog, G.

AU - Knie, K.

AU - Korschinek, G.

AU - Ludwig, P.

AU - Park, J.

AU - Reedy, R. C.

AU - Rugel, G.

PY - 2016/4/13

Y1 - 2016/4/13

N2 - A dying massive star ends in a supernova explosion ejecting a large fraction of its mass into the interstellar medium. If this happens nearby, part of the ejecta might end on Solar System bodies and, in fact, radioactive Fe60 has been detected on the Pacific ocean floor in about 2 Ma old layers. Here, we report on the detection of this isotope also in lunar samples, originating presumably from the same event. The concentration of the cosmic ray produced isotope Mn53, measured in the same samples, proves the supernova origin of the Fe60. From the Fe60 concentrations found we deduce a reliable value for the local interstellar fluence in the range of 1×108 at/cm2. Thus, we obtain constraints on the recent and nearby supernova(e).

AB - A dying massive star ends in a supernova explosion ejecting a large fraction of its mass into the interstellar medium. If this happens nearby, part of the ejecta might end on Solar System bodies and, in fact, radioactive Fe60 has been detected on the Pacific ocean floor in about 2 Ma old layers. Here, we report on the detection of this isotope also in lunar samples, originating presumably from the same event. The concentration of the cosmic ray produced isotope Mn53, measured in the same samples, proves the supernova origin of the Fe60. From the Fe60 concentrations found we deduce a reliable value for the local interstellar fluence in the range of 1×108 at/cm2. Thus, we obtain constraints on the recent and nearby supernova(e).

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Interstellar Fe 60 on the surface of the moon

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