SEARCH

SEARCH BY CITATION

REFERENCES

  • Adler I., Walter L. S., Lowman P. D., Glass B. P., French B. M., Philpotts J. A., Heinrich K. J. F., and Goldstein J. I. 1970. Electron microprobe analysis of Apollo 11 lunar samples. Geochimica et Cosmochimica Acta 1: 8792.
  • Anders E. and Ebihara M. 1982. Solar system abundances of the elements. Geochimica et Cosmochimica Acta 46: 23632380.
  • Batson P. E., Browning N. D., and Muller D. A. 1994. Electron energy-loss near-edge structure studies at the atomic level: Reliability of the spatial difference technique. MSA Bulletin 24: 371378.
  • Bibring J. P., Duraud J. P., Durrieu L., Jouret C., Maurette M., and Meunier R. 1970. Ultrathin amorphous coatings on lunar dust grains. Science 175: 753755.
  • Botton G. A., Lazar S., Wu M.-Y., Tichelaar and Zandbergen H. W. 2003. Materials science applications of a monochromated TEM. Microscopy and Microanalysis (Suppl.) 9: 112113.
  • Bradley J. P. 1994. Chemically anomalous, preaccretionally irradiated grains in interplanetary dust from comets. Science 265: 925929.
  • Bradley J. P. and Ishii H. A. 2008 Comment on the shape and composition of interstellar silicate grains. Astronomy & Astrophysics 486: 781784.
  • Bradley J. P., Brownlee D. E., and Veble D. R. 1983. Pyroxene whiskers and platelets in interplanetary dust—Evidence of vapour phase growth. Nature 301: 473477.
  • Bradley J. P., Dai Z. R., Erni R., Browning N. D., Graham G., Weber P., Julie Smith J., Hutcheon I., Ishii H., Bajt S., Floss C., Stadermann F., and Sandford S. 2005. An astronomical 2175 Å feature in interplanetary dust particles. Science 307: 244247.
  • Bradley J. P., Dukes C., Baragiola R., McFadden L., Johnson R. E., and Brownlee D. E. 1996. Radiation processing and the origins of interplanetary dust (abstract). 27th Lunar and Planetary Science Conference. pp. 149150.
  • Bradley J. P., Germani M. S., and Brownlee D. E. 1989. Automated thin-film analyses of anhydrous interplanetary dust particles in the analytical electron microscope. Earth and Planetary Science Letters 93: 113.
  • Bradley J. P., Germani M. S., and Humecki H. J. 1992. Combined infrared and analytical electron microscope studies of interplanetary dust particles. The Astrophysical Journal 394: 643651.
  • Bringa E. M., Kucheyev S. O., Loeffler M. J., Baragiola R. A., Tielens A. G. G. M., Dai Z. R., Graham G., Bajt S., Bradley J. P. Dukes C. A., Felter T. E., Torres D. F., and Van Breugel W. 2007. Energetic processing of interstellar silicate grains by cosmic rays. The Astrophysical Journal 662: 372378.
  • Brink H. A., Barfels M. M. G., Burgner R. P., and Edwards B. N. 2003. A sub-50 eV spectrometer and energy filter for use in combination with 200 keV monochromated (S)TEMs. Ultramicroscopy 96: 367384.
  • Brown L. M. and Bleloch A. L. 2000. In Microscopy and Microanalysis 2000, edited by BaileyG. W., McKernanS., PriceR. L., WalckS. D., CharestP.-M., and GauvinR. New York: Springer-Verlag. pp. 9899.
  • Brownlee D. E., Joswiak D. J., Bradley J. P., Gezo J. C., and Hill H. G. M. 2000. Spatially resolved acid dissolution of IDPs: The state of carbon and the abundance of diamonds in the dust (abstract #1921). 31st Lunar and Planetary Science Conference. CD-ROM.
  • Brownlee D. E., Joswiak D. J., Bradley J. P., Matrajt G., and Wooden D. E. 2005. Cooked GEMS—Insights into the hot origins of crystalline silicates in circumstellar disks and the cold origins of GEMS (abstract #2391). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Brownlee D., Tsou P., Aléon J., Alexander C. M. O'D., Araki T., Bajt S., Baratta G. A., Bastien R., Bland P., Bleuet P., Borg J., Bradley J. P., Brearley A., Brenker F., Brennan S., Bridges J. C., Browning N. D., Brucato J. R., Bullock E., Burchell M. J., Busemann H., Butterworth A., Chaussidon M., Cheuvront A., Chi M., Cintala M. J., Clark B. C., Clemett S. J., Cody G., Colangeli L., Cooper G., Cordier P., Daghlian C., Dai Z., D'Hendecourt L., Djouadi Z., Dominguez G., Duxbury T., Dworkin J. P., Ebel D. S., Economou T. E., Fakra S., Fairey S. A. J., Fallon S., Ferrini G., Ferroir T., Fleckenstein H., Floss C., Flynn G., Franchi I. A., Fries M., Gainsforth Z., Gallien J.-P., Genge M., Gilles M. K., Gillet Ph., Gilmour J., Glavin D. P., Gounelle M., Grady M. M., Graham G. A., Grant P. G., Green S. F., Grossemy F., Grossman L., Grossman J. N., Guan Y., Hagiya K., Harvey R., Heck P., Herzog G. F., Hoppe P., Hörz F., Huth J., Hutcheon I. D., Ignatyev K., Ishii H., Ito M., Jacob D., Jacobsen C., Jacobsen S., Jones S., Joswiak D., Jurewicz A., Kearsley A. T., Keller L. P., Khodja H., Kilcoyne A. L. D., Kissel J., Krot A., Langenhorst F., Lanzirotti A., Le L., Leshin L. A., Leitner J., Lemelle L., Leroux H., Liu M.-C., Luening K., Lyon I., MacPherson G., Marcus M. A., Marhas K., Marty B., Matrajt G., McKeegan K., Meibom A., Mennella V., Messenger K., Messenger S., Mikouchi T., Mostefaoui S., Nakamura T., Nakano T., Newville M., Nittler L. R., Ohnishi I., Ohsumi K., Okudaira K., Papanastassiou D. A., Palma R., Palumbo M. E., Pepin R. O., Perkins D., Perronnet M., Pianetta P., Rao W., Rietmeijer F. J. M., Robert F., Rost D., Rotundi A., Ryan R., Sandford S. A., Schwandt C. S., See T. H., Schlutter D., Sheffield-Parker J., Simionovici A., Simon S., Sitnitsky I., Snead C. J., Spencer M. K., Stadermann F. J., Steele A., Stephan T., Stroud R., Susini J., Sutton S. R., Suzuki Y., Taheri M., Taylor S., Teslich N., Tomeoka K., Tomioka N., Toppani A., Trigo-Rodríguez J. M., Troadec D., Tsuchiyama A., Tuzzolino A. J., Tyliszczak T., Uesugi K., Velbel M., Vellenga J., Vicenzi E., Vincze L., Warren J., Weber I., Weisberg M., Westphal A. J., Wirick S., Wooden D., Wopenka B., Wozniakiewicz P., Wright I., Yabuta H., Yano H., Young E. D., Zare R. N., Zega T., Ziegler K., Zimmermann L., Zinner E., and Zolensky M. 2006. Comet 81P/Wild 2 under a microscope. Science 314: 17111716.
  • Buban J. P., Chi M., Masiel D. J., Bradley J. P., Jiang B., Stahlberg H., and Browning N. D. 2009. Structural variability of edge dislocations in SrTiO3 low-angle [001] tilt grain boundary. Journal of Materials Research 24: 21912199.
  • Buseck P. R. 1977. Pallasite meteorites—Mineralogy, petrology and geochemistry. Geochimica et Cosmochimica Acta 41: 711721.
  • Buseck P. R. and Veblen D. R. 1978. Trace elements, crystal defects and high resolution electron microscopy. Geochimica et Cosmochimica Acta 42: 669678.
  • Chi M., Ishii H. A., Dai Z. R., Simon S., Joswiak D. J., Browning D. J., and Bradley J. P. 2009. The origin of refractory minerals in comet 81P/Wild 2. Geochimica et Cosmochimica Acta 73: 71507161.
  • Dai Z. R. and Bradley J. P. 2005. Origin and properties of GEMS (glass with embedded metal and sulfides). In Chondrites and the protoplanetary disk, edited by KrotA. N., ScottE. R. D., and ReipurthB. ASP Conference Series, vol. 134. pp. 668674.
  • Dai Z. R., Bradley J. P., Erni R., and Browning N. D. 2005. High-resolution electron energy-loss spectroscopy (HREELS) using a monochromated TEM/STEM (abstract #2110). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Dai Z. R., Bradley J. P., Joswiak D. J., Brownlee D. E., Hill H. G. M. and Genge M. J. 2002. Possible in situ formation of meteoritic nanodiamonds in the early solar system. Nature 418: 157159.
  • Davoisne C., Djouadi Z., Leroux H., D'Hendecourt L., Jones A. P., Deboffle D. 2006. The origin of GEMS as deduced from the microstructural evolution of amorphous silicates with annealing. Astronomy & Astrophysics 448: L1L4.
  • Davoisne C., Leroux H., Frère M. Gimblot J., Gengembre L., Djouadi Z., Ferreiro V., D'Hendecourt L., and Jones A. 2008. Chemical and morphological evolution of a silicate surface under low-energy ion irradiation. Astronomy & Astrophysics 482: 541548.
  • Draine B. 2003. Interstellar dust grains. Annual Review of Astronomy and Astrophysics 41: 241289.
  • Egerton R. F. 1996. Electron energy-loss spectroscopy in the electron microscope. New York: Plenum Press.485 p.
  • Elbert D. C., Ilton E. S., and Veblen D. R. 2001. EFTEM valence imaging of minerals I: Ferric and ferrous iron (abstract #3893). Eleventh Annual V. M. Goldschmidt Conference, May 20–24, 2001, Hot Springs, Virginia.
  • Erni R., Browning N. D., Dai Z. R., and Bradley J. P. 2005. Analysis of extraterrestrial particles using monochromated electron energy-loss spectroscopy (EELS). Micron 36: 369379.
  • Evans J. E., Hetherington C., Kirkland A., Chang L. Y., Stahlberg H., and Browning D. D. 2008. Low-dose aberration corrected cryo-electron microscopy of organic specimens. Ultramicroscopy 108: 16361644.
  • Floss C., Stadermann F. J., Bradley J. P., Dai Z. R., Bajt S., and Graham G. 2004. Carbon and nitrogen isotopic anomalies in an anhydrous interplanetary dust particle. Science 303: 13551358.
  • Floss C., Stadermann F. J., Bradley J. P., Dai Z. R., Bajt S., Graham G., and Lea A. S. 2006. Geochimica et Cosmochimica Acta 70: 23712382.
  • Fraundorf P. 1981. Interplanetary dust in the transmission electron microscope—Diverse materials from the early solar system. Geochimica et Cosmochimica Acta 45: 915937.
  • Freitag B., Kujawa S., Mul P. M., Ringnalda J., and Tiemeijer P. C. 2005. Breaking the spherical and chromatic aberration barrier in transmission electron microscopy. Ultramicroscopy 102: 209214.
  • Germani M. S. and Bradley J. P. 1990. Automated point count analysis of interplanetary dust particle thin-sections (abstract). 19th Lunar and Planetary Science Conference. pp. 385386.
  • Graham G. A., Teslich N. E., Kearsley A. T., Stadermann F. J., Stroud R. M., Dai Z., Ishii H. A., Hutcheon I. D., Bajt S., Snead C. J., Weber P. K., and Bradley J. P. 2008. Applied focused ion beam techniques for sample preparation of astromaterials for integrated nanoanalysis. Meteoritics & Planetary Science 43: 561569.
  • Hofer F., Grogger W., Kothleitner G., and Warbichler X. 2003. Analaytical electron microscopy in materials and biological sciences. Microscopy and Microanalysis 9 (Suppl.): 1213.
  • Ishii H. A., Bradley J. P., Dai Z. R., Chi M., Kearsley A. T., Burchell M. J., Browning N. D., and Molster F. 2008. Comparison of Comet 81P/Wild 2 dust with interplanetary dust from comets. Science 319: 447449.
  • Ishii H. A., Joswiak D., Bradley J. P., Teslich N., Matzel J., Hutcheon I. D., Brownlee D., Matrajt G., MacPherson G., and McKeegan K. D. 2009. Enabling Al-Mg isotopic measurements on comet Wild 2's micro-CAIs (abstract #2288). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Anthony Jones P. 2005. Dust formation, propagation and survival in the ISM. Proceedings of the dusty and molecular universe: A prelude to Herschel and ALMA, 27–29 October 2004, Paris, France. Ed. by WilsonA. ESA SP-577, Noordwijk, Netherlands: ESA Publications Division. pp. 239244.
  • Joswiak D. J., Brownlee D., Matrajt G., Westphal A. J., and Snead C. 2009. Kosmochloric Ca-rich pyroxenes and FeO-rich olivines (Kool grains) and associated phases in Stardust tracks and chondritic porous interplanetary dust particles: Possible precursors to type II FeO-rich chondrules. Meteoritics & Planetary Science 44. This issue.
  • Keil K., Prinz M., and Bunch T. E. 1970. Mineral chemistry of lunar samples. Science 167: 597599.
  • Keller L. P. and MacKay D. S. 1997. The nature and origin of rims on lunar soil grains. Geochimica et Cosmochimica Acta 61: 23312241.
  • Keller L. P. and Messenger 2004. On the origin of GEMS (abstract #1985). 35th Lunar and Planetary Science Conference. CD-ROM.
  • Keller L. P. and Messenger 2008. Coordinated chemical and isotopic studies of GEMS grains in IDPs (abstract #1391). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Keller L. P. and Messenger 2007. Coordinated chemical and isotopic studies of IDPs: Comparison of circumstellar and solar GEMS grains. Meteoritics & Planetary Science 42: 5297.
  • Keller L. P., Bajt S., Baratta G. A., Borg J., Bradley J. P., Brownlee D. E., Busemann H., Brucato J. R., Burchell M., Colangeli L., D'Hendecourt L., Djouadi Z., Ferrini G., Flynn G., Franchi I. A., Fries M., Grady M. M., Graham G. A., Grossemy F., Kearsley A., Matrajt G., Nakamura-Messenger K., Mennella V., Nittler L., Palumbo M. E., Stadermann F. J., Tsou P., Rotundi A., Sandford S. A., Snead C., Steele A., Wooden D., and Zolensky M. 2006. Infrared spectroscopy of comet 81P/Wild 2 samples returned by Stardust. Science 314: 17281730.
  • Keller L. P., Messenger S., and Christoffersen R. 2005. GEMS revealed: Spectrum imaging of aggregate grains in interplanetary dust (abstract #2088). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Kimoto K., Kobayashia K., Aoyama T., and Mitsui Y. 1999. Analyses of composition and chemical shift of silicon oxynitride film using energy-filtering transmission electron microscope based spatially resolved electron energy loss spectroscopy. Micron 30: 121127.
  • Leroux H., Roskosz M., and Jacob D. 2009. Oxidation state of iron and extensive redistribution of sulfur in thermally modified Stardust particles. Geochimica et Cosmochimica Acta 73: 767777.
  • Matzel J., Ishii H., Joswiak D. J., Hutcheon I., Bradley J. P., Brownlee D. E., Weber P., Ramon E., Simon J., Teslich N., Matrajt G., McKeegan K. D., and MacPherson G. 2009. Mg isotope measurements of a Stardust CAI: No evidence of 26Al (abstract #5373). Meteoritics & Planetary Science 44: A136.
  • Matrajt G., Ito M., Wirick S., Messenger S., Brownlee D. E., Joswiak D., Flynn G., Sandford S., Snead C., and Westphal A. 2008. Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study. Meteoritics & Planetary Science 43: 315334.
  • Messenger S., Keller L. P., Stadermann F. J., Walker R. M., and Zinner E. 2003. Samples of stars beyond the solar system: silicate grains in interplanetary dust. Science 300: 105108.
  • Min M., Waters L. B. F. M., de Koter A., Hovenier J. W., Keller L. P., and Markwick-Kemper F. 2007. The shape and composition of interstellar silicate grains. Astronomy & Astrophysics 462: 667676.
  • Min M., Waters L. B. F. M., de Koter A., Hovenier J. W., Keller L. P., and Markwick-Kemper F. 2008. Erratum—The shape and composition of interstellar silicate grains. Astronomy & Astrophysics 486: 779780.
  • Mook H. W. and Kruit P. 2000. Construction and characterization of the fringe field monochromator for a field emission gun. Ultramicroscopy 81: 129139.
  • Mook H. W., Batson P. E., and Kruit P. 1999. In Electron Microscopy and Analysis, 1999 Ed. KielyC. J. (Institute of Physics, Bristol) vol 161. pp. 223226.
  • Mukai T., Inami W., Omoto K., Kaneyama T., Tomita T., Tsuno K., Terauchi M., Tsuda K., Satoh Y., Naruse M., Honda T., and Tanaka M. 2007. Performance of a monochromator for a 200 kV analytical electron microscope. Microscopy and Microanalysis 13: 12421243.
  • O'Donnell J. E. and Mathis J. S. 1997. Dust grain size distribution and the abundance of refractory elements in the diffuse interstellar medium. The Astrophysical Journal 479: 806817.
  • Pepin R. O., Palma R. L., and Schlutter D. J. 2001. Noble gases in interplanetary dust particles. II. Excess helium-3 in cluster particles and modeling constraints on interplanetary dust particle exposures to cosmic-ray irradiation. Meteoritics & Planetary Science 36: 15151534.
  • Rietmeijer F. J. M., Hallenbeck S. L., Nuth J. A., and Karner J. M. 2002. Amorphous magnesiosilicate smokes annealed in vacuum: the evolution of magnesium silicates in circumstellar and cometary dust. Icarus 156: 269286.
  • Sandford S. A. 1996. The inventory of interstellar materials available for the formation of the solar system. Meteoritics & Planetary Science 31: 440476.
  • Sawada H., Tomita T., Naruse M., Honda T., Hambridge P., Hartel P., Haider M., Hetherington C., Doole R., Kirkland A., Hutchison J., Titchmarsh J., and Cockayne D. 2005. Experimental evaluation of a spherical aberration-corrected TEM and STEM. Journal of Electron Microscopy 54: 119121.
  • Schaffer B., Kothleitner G., and Grogger W. 2006. EFTEM spectrum imaging at high-energy resolution. Ultramicroscopy 106: 11291138.
  • Stepnik B., Abergel A., Bernard J.-P., Boulanger F., Cambrésy L., Giard M., Jones A. P., Lagache G., Lamarre J.-M., Meny C., Pajot F., Le Peintre F., Ristorcelli I., Serra G., and Torre J.-P. 2003. Evolution of dust properties in an interstellar filament. Astronomy & Astrophysics 398: 551563.
  • Tomeoka K., Tomioka N., and Ohnishi I. 2008. Silicate minerals and Si-O glass in comet Wild 2 samples: Transmission electron microscopy. Meteoritics & Planetary Science 43: 273284.
  • Topanni A. Dukes C., Baragiola R., and Bradley J. P. 2006. Segregation of Mg, Ca, Al and Ti in silicates during ion irradiation (abstract #2056). 37th Lunar and Planetary Science Conference. CD-ROM.
  • Van Boekel R., Min M., Lienert Ch., Waters L. B. F. M. et al. 2004. The building blocks of planets within the ‘terrestrial’ region of protoplanetary disks. Nature 432: 479482.
  • Wang Z. L., Bentley J., and Evans N. D. 1999. Mapping the valence states of transition metal elements using energy-filtered transmission electron microscopy. Journal of Physical Chemistry B 103: 751753.
  • Wirick S., Flynn G. J., Keller L., Nakarmura-Messenger K., Sandford S., Zolensky M., Peltzer C., and Jacobsen C. 2009. Evidence for changes in 81P/Wild 2 organic matter since collection and comparison of 81P/Wild 2 and IDP organic matter to access the thermal effects of aerogel capture (abstract #1366). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Wood J. A., Dickey J. S. Jr., Marvin U. B., and Powell B. N. 1970. Lunar anorthosites. Science 167: 602604.
  • Zolensky M. E., Zega T. J., Yano H., Wirick S., Westphal A. J., Weisberg M. K., Weber I., Warren J. L., Velbel M. A., Tsuchiyama A., Tsou P., Toppani A., Tomioka N., Tomeoka K., Teslich N., Taheri M., Susini J., Stroud R., Stephan T., Stadermann F. J., Snead C. J., Simon S. B., Simionovici A., See T. H., Robert F., Rietmeijer F. J. M., Rao W., Perronnet M. C., Papanastassiou D. A., Okudaira K., Ohsumi K., Ohnishi I., Nakamura-Messenger K., Nakamura T., Mostefaoui S., Mikouchi T., Meibom A., Matrajt G., Marcus M. A., Leroux H., Lemelle L., Le L., Lanzirotti A., Langenhorst F., Krot A. N., Keller L. P., Kearsley A. T., Joswiak D., Jacob D., Ishii H., Harvey R., Hagiya K., Grossman L., Grossman J. N., Graham G. A., Gounelle M., Gillet Ph., Genge M. J., Flynn G., Ferroir T., Fallon S., Ebel D. S., Dai Z. R., Cordier P., Clark B., Chi M., Butterworth A. L., Brownlee D. E., Bridges J. C., Brennan S., Brearley A., Bradley J. P., Bleuet P., Bland P. A., and Bastien R. 2006. Mineralogy and petrology of comet 81P/Wild 2 nucleus samples. Science 314: 17351739.