F
Frank J. Stadermann
Researcher at Washington University in St. Louis
Publications - 126
Citations - 7968
Frank J. Stadermann is an academic researcher from Washington University in St. Louis. The author has contributed to research in topics: Interplanetary dust cloud & Presolar grains. The author has an hindex of 39, co-authored 126 publications receiving 7540 citations. Previous affiliations of Frank J. Stadermann include University of Washington.
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In situ survey of graphite in unequilibrated chondrites: Morphologies, C, N, O, and H isotopic ratios
TL;DR: In this article, the authors performed in situ morphological and isotopic studies of graphite in the primitive chondrites Khohar (L3), Mezˆ-Madaras (L 3), Inman, Grady (H3), Acfer 182, Acfer 207, and Acfer 214.
Journal ArticleDOI
Applied focused ion beam techniques for sample preparation of astromaterials for integrated nanoanalysis
Giles A. Graham,Giles A. Graham,Nick Teslich,Anton T. Kearsley,Frank J. Stadermann,Rhonda M. Stroud,Zu Rong Dai,Hope A. Ishii,Ian D. Hutcheon,Saša Bajt,Christopher J. Snead,Peter K. Weber,John P. Bradley +12 more
TL;DR: A focused beam of gallium ions has been used to prepare electron transparent sections from an interplanetary dust particle (IDP), as part of an integrated analysis protocol to maximize the mineralogical, elemental, isotopic, and spectroscopic information extracted from one individual particle as discussed by the authors.
Applied Focused Ion Beam Techniques for Sample Preparation of Astromaterials for Integrated Nano-Analysis
G. A. Graham,Nick Teslich,Anton T. Kearsley,Frank J. Stadermann,Rhonda M. Stroud,Zu Rong Dai,H A Ishii,I. D. Hutcheon,S Bajt,Christopher J. Snead,P. K. Weber,J. P. Bradley +11 more
TL;DR: A focused beam of gallium ions has been used to prepare electron transparent sections from an interplanetary dust particle, as part of an integrated analysis protocol to maximize the mineralogical, elemental, isotopic and spectroscopic information extracted from one individual particle.
Journal ArticleDOI
Stardust Interstellar Preliminary Examination IV: Scanning transmission X-ray microscopy analyses of impact features in the Stardust Interstellar Dust Collector
Anna L. Butterworth,Andrew J. Westphal,Tolek Tyliszczak,Zack Gainsforth,Julien Stodolna,D. Frank,Carlton Allen,David Anderson,Asna Ansari,Saša Bajt,Ron K. Bastien,Nabil Bassim,Hans A. Bechtel,Janet Borg,Frank E. Brenker,John Bridges,Donald E. Brownlee,Mark J. Burchell,Manfred Burghammer,Hitesh Changela,Peter Cloetens,Andrew M. Davis,Ryan Doll,Christine Floss,George J. Flynn,Eberhard Grün,Philipp R. Heck,Jon K. Hillier,Peter Hoppe,Bruce Hudson,Joachim Huth,Brit Hvide,Anton T. Kearsley,Ashley J. King,Barry Lai,Jan Leitner,Laurence Lemelle,Hugues Leroux,Ariel Leonard,R. Lettieri,William Marchant,Larry R. Nittler,Ryan C. Ogliore,Wei Ja Ong,Frank Postberg,Mark C. Price,Scott A. Sandford,Juan-Angel Sans Tresseras,Sylvia Schmitz,Tom Schoonjans,Geert Silversmit,Alexandre Simionovici,Vicente A. Solé,Ralf Srama,Frank J. Stadermann,Thomas Stephan,Veerle Sterken,Veerle Sterken,Veerle Sterken,Rhonda M. Stroud,Steven Sutton,Mario Trieloff,Peter Tsou,Akira Tsuchiyama,Bart Vekemans,Laszlo Vincze,Joshua Von Korff,Naomi Wordsworth,Daniel Zevin,Michael E. Zolensky +69 more
TL;DR: In this paper, the authors report the quantitative characterization by synchrotron soft X-ray spectroscopy of 31 potential impact features in the aerogel capture medium of the Stardust Interstellar Dust Collector.
Journal ArticleDOI
Stardust Interstellar Preliminary Examination IX: High-speed interstellar dust analog capture in Stardust flight-spare aerogel
Frank Postberg,Frank Postberg,Jon K. Hillier,S. P. Armes,S. Bugiel,S. Bugiel,Anna L. Butterworth,Damien Dupin,Lee A. Fielding,Syuji Fujii,Zack Gainsforth,E. Gruen,E. Gruen,Y. W. Li,Y. W. Li,Y. W. Li,Ralf Srama,Veerle Sterken,Veerle Sterken,Veerle Sterken,Julien Stodolna,Mario Trieloff,Andrew J. Westphal,C. Achilles,Carlton Allen,Asna Ansari,Saša Bajt,Nabil Bassim,Ron K. Bastien,Hans A. Bechtel,Janet Borg,Frank E. Brenker,John Bridges,Donald E. Brownlee,Mark J. Burchell,Manfred Burghammer,Hitesh Changela,Hitesh Changela,Peter Cloetens,Andrew M. Davis,Ryan Doll,Christine Floss,George J. Flynn,D. Frank,Philipp R. Heck,Peter Hoppe,Gary R. Huss,Joachim Huth,Anton T. Kearsley,Ashley J. King,Barry Lai,Jan Leitner,Laurence Lemelle,Ariel Leonard,Hugues Leroux,R. Lettieri,William Marchant,Larry R. Nittler,Ryan C. Ogliore,Wei Ja Ong,Mark C. Price,Scott A. Sandford,J.-A. Sans Tressaras,Sylvia Schmitz,Tom Schoonjans,Kate Schreiber,Geert Silversmit,Alexandre Simionovici,Vicente A. Solé,Frank J. Stadermann,Thomas Stephan,Rhonda M. Stroud,Steven Sutton,Peter Tsou,Akira Tsuchiyama,T. Tyliczszak,Bart Vekemans,Laszlo Vincze,Daniel Zevin,Michael E. Zolensky +79 more
TL;DR: In this paper, the results of laboratory hypervelocity impact experiments, during which cosmic dust analog particles (diameters of between 0.2 and 0.4 mu m), composed of olivine, orthopyroxene, or an organic polymer, were accelerated onto Stardust flight-spare low-density (approximately 0.01 g cm(-3)) silica aerogel.