Stardust Interstellar Preliminary Examination V:  XRF  analyses of interstellar dust candidates at  ESRF ID 13 | Zendy

Brenker Frank E. | Zendy; Westphal Andrew J. | Zendy; Vincze Laszlo | Zendy; Burghammer Manfred | Zendy; Schmitz Sylvia | Zendy; Schoonjans Tom | Zendy; Silversmit Geert | Zendy; Vekemans Bart | Zendy; Allen Carlton | Zendy; Anderson David | Zendy; Ansari Asna | Zendy; Bajt Saša | Zendy; Bastien Ron K. | Zendy; Bassim Nabil | Zendy; Bechtel Hans A. | Zendy; Borg Janet | Zendy; Bridges John | Zendy; Brownlee Donald E. | Zendy; Burchell Mark | Zendy; Butterworth Anna L. | Zendy; Changela Hitesh | Zendy; Cloetens Peter | Zendy; Davis Andrew M. | Zendy; Doll Ryan | Zendy; Floss Christine | Zendy; Flynn George | Zendy; Fougeray Patrick | Zendy; Frank David R. | Zendy; Gainsforth Zack | Zendy; Grün Eberhard | Zendy; Heck Philipp R. | Zendy; Hillier Jon K. | Zendy; Hoppe Peter | Zendy; Hudson Bruce | Zendy; Huth Joachim | Zendy; Hvide Brit | Zendy; Kearsley Anton | Zendy; King Ashley J. | Zendy; Lai Barry | Zendy; Leitner Jan | Zendy; Lemelle Laurence | Zendy; Leroux Hugues | Zendy; Leonard Ariel | Zendy; Lettieri Robert | Zendy; Marchant William | Zendy; Nittler Larry R. | Zendy; Ogliore Ryan | Zendy; Ong Wei Ja | Zendy; Postberg Frank | Zendy; Price Mark C. | Zendy; Sandford Scott A. | Zendy; Tresseras JuanAngel Sans | Zendy; Simionovici Alexandre S. | Zendy; Solé Vicente A. | Zendy; Srama Ralf | Zendy; Stadermann Frank | Zendy; Stephan Thomas | Zendy; Sterken Veerle J. | Zendy; Stodolna Julien | Zendy; Stroud Rhonda M. | Zendy; Sutton Steven | Zendy; Trieloff Mario | Zendy; Tsou Peter | Zendy; Tsuchiyama Akira | Zendy; Tyliszczak Tolek | Zendy; Korff Joshua | Zendy; Wordsworth Naomi | Zendy; Zevin Daniel | Zendy; Zolensky Michael E. | Zendy

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Stardust Interstellar Preliminary Examination V: XRF analyses of interstellar dust candidates at ESRF ID 13

Author(s) -

Brenker Frank E.,

Westphal Andrew J.,

Vincze Laszlo,

Burghammer Manfred,

Schmitz Sylvia,

Schoonjans Tom,

Silversmit Geert,

Vekemans Bart,

Allen Carlton,

Anderson David,

Ansari Asna,

Bajt Saša,

Bastien Ron K.,

Bassim Nabil,

Bechtel Hans A.,

Borg Janet,

Bridges John,

Brownlee Donald E.,

Burchell Mark,

Butterworth Anna L.,

Changela Hitesh,

Cloetens Peter,

Davis Andrew M.,

Doll Ryan,

Floss Christine,

Flynn George,

Fougeray Patrick,

Frank David R.,

Gainsforth Zack,

Grün Eberhard,

Heck Philipp R.,

Hillier Jon K.,

Hoppe Peter,

Hudson Bruce,

Huth Joachim,

Hvide Brit,

Kearsley Anton,

King Ashley J.,

Lai Barry,

Leitner Jan,

Lemelle Laurence,

Leroux Hugues,

Leonard Ariel,

Lettieri Robert,

Marchant William,

Nittler Larry R.,

Ogliore Ryan,

Ong Wei Ja,

Postberg Frank,

Price Mark C.,

Sandford Scott A.,

Tresseras JuanAngel Sans,

Simionovici Alexandre S.,

Solé Vicente A.,

Srama Ralf,

Stadermann Frank,

Stephan Thomas,

Sterken Veerle J.,

Stodolna Julien,

Stroud Rhonda M.,

Sutton Steven,

Trieloff Mario,

Tsou Peter,

Tsuchiyama Akira,

Tyliszczak Tolek,

Korff Joshua,

Wordsworth Naomi,

Zevin Daniel,

Zolensky Michael E.

Publication year - 2014

Publication title -

meteoritics and planetary science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.09

H-Index - 100

eISSN - 1945-5100

pISSN - 1086-9379

DOI - 10.1111/maps.12206

Subject(s) - impact crater , ejecta , astrophysics , physics , cosmic dust , synchrotron , particle (ecology) , astrobiology , interplanetary dust cloud , solar system , interstellar medium , astronomy , geology , galaxy , optics , supernova , oceanography

Here, we report analyses by synchrotron X‐ray fluorescence microscopy of the elemental composition of eight candidate impact features extracted from the Stardust Interstellar Dust Collector (SIDC). Six of the features were unambiguous tracks, and two were crater‐like features. Five of the tracks are so‐called “midnight” tracks—that is, they had trajectories consistent with an origin either in the interstellar dust stream or as secondaries from impacts on the Sample Return Capsule (SRC). In a companion paper reporting synchrotron X‐ray diffraction analyses of ISPE candidates, we show that two of these particles contain natural crystalline materials: the terminal particle of track 30 contains olivine and spinel, and the terminal particle of track 34 contains olivine. Here, we show that the terminal particle of track 30, Orion, shows elemental abundances, normalized to Fe, that are close to CI values, and a complex, fine‐grained structure. The terminal particle of track 34, Hylabrook, shows abundances that deviate strongly from CI , but shows little fine structure and is nearly homogenous. The terminal particles of other midnight tracks, 29 and 37, had heavy element abundances below detection threshold. A third, track 28, showed a composition inconsistent with an extraterrestrial origin, but also inconsistent with known spacecraft materials. A sixth track, with a trajectory consistent with secondary ejecta from an impact on one of the spacecraft solar panels, contains abundant Ce and Zn. This is consistent with the known composition of the glass covering the solar panel. Neither crater‐like feature is likely to be associated with extraterrestrial materials. We also analyzed blank aerogel samples to characterize background and variability between aerogel tiles. We found significant differences in contamination levels and compositions, emphasizing the need for local background subtraction for accurate quantification.

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