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  • Brownlee D. E., Tsou P., Aleón 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., Brucato J. R., Brucato H., 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. G., Daghlian C., Dai Z., D’Hendecourt L., Djouadi Z., Dominguez G., Duxbury T., Dworkin J. P., Ebel D., Economou T. E., 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 P., 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., Guan Y., Hagiya K., Harvey R., Heck P., Herzog G. F., Hoppe P., Hörz F., Huth J., Hutcheon I. D., Ishii H., Ito M., Jacob D., Jacobsen C., Jacobsen S., Joswiak D., Kearsley A. T., Keller L., Khodja H., Kilcoyne A. L. D., Kissel J., Krot A., Langenhorst F., Lanzirotti A., Le L., Leshin L., Leitner J., Lemelle L., Leroux H., Liu M.-C., Luening K., Lyon I., MacPherson G., Marcus M. A., Marhas K., Matrajt G., Meibom A., Mennella V., Messenger K., 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. O., Pepin R. E., Perkins D., Perronnet M., Pianetta P., Rao W., Rietmeijer F., Robert F., Rost D., Rotundi A., Ryan R., Sandford S. A., Schwandt C. S., See T. H., Schlutter D., Sheffield-Parker J. A., Simionovici S., Sitnitsky S. I., Snead C. J., Spencer M. K., Stadermann F. J., Steele A., Stephan T., Stroud R., Susini J., Sutton S. R., Taheri M., Taylor S., Teslich N., Tomeoka K., Tomioka N., Toppani A., Trigo-Rodríguez J. M., Troadec D., Tsuchiyama A., Tuzolino 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. A., Wright I., Yabuta H., Yano H., Young E. D., Zare R. N., Zega T., Ziegler K., Zimmerman L., Zinner E., and Zolensky M. 2006. Comet 81P/Wild 2 under a microscope. Science 314:17111716.
  • Burchell M. J. and Kearsley A. T. 2009. Short period Jupiter family comets after Stardust. Planetary and Space Science 57:11461161.
  • Burchell M. J., Thomson R., and Yano H. 1999a. Capture of hypervelocity particles in aerogel: In ground laboratory and low earth orbit. Planetary and Space Science 47:189204.
  • Burchell M. J., Cole M. J., McDonnell J. A. M., and Zarnecki J. C. 1999b. Hypervelocity impact studies using the 2 MV Van de Graaff accelerator and two-stage light gas gun of the University of Kent at Canterbury. Measurement Science Technology 10:4150.
  • Burchell M. J., Creighton J. A., Cole M. J., Mann J., and Kearsley A. T. 2001. Capture of particles in hypervelocity impacts in aerogel. Meteoritics & Planetary Science 36:209221.
  • Burchell M. J., Creighton J. A., and Kearsley A. T. 2004. Identification of organic particles via Raman techniques after capture in hypervelocity impacts on aerogel. Journal of Raman Spectroscopy 35:249253.
  • Burchell M. J., Graham G., and Kearsley A. 2006. Cosmic dust collection in aerogel. Annual Review of Earth and Planetary Sciences 34:385418.
  • Burchell M. J., Fairey S. A. J., Wozniakiewicz P., Brownlee D. E., Hörz F., Kearsley A. T., See T. H., Tsou P., Westphal A., Green S. F., Trigo-Rodríguez J. M., and Dominguez G. 2008. Characteristics of cometary dust tracks in Stardust aerogel and laboratory calibrations. Meteoritics & Planetary Science 43:2340.
  • Burchell M. J., Fairey S. A. J., Foster N. J., and Cole M. J. 2009a. Hypervelocity capture of particles in aerogel: Dependence on aerogel properties. Planetary and Space Science 57:5870.
  • Burchell M. J., Foster N. J., Ormond-Prout J., Dupin D., and Armes S. P. 2009b. Extent of thermal ablation suffered by model organic microparticles during aerogel capture at hypervelocities. Meteoritics & Planetary Science 44:14071420.
  • Elsila J. E., Glavin D. P., and Dworkin J. P. 2009. Cometary glycine detected in samples returned by Stardust. Meteoritics & Planetary Science 44:13231330.
  • Glavin D. P., Dworkin J. P., and Sandford S. A. 2008. Detection of cometary amines in samples returned by Stardust. Meteoritics & Planetary Science 43:399413.
  • Hörz F, Cintala M. J., Zolensky M. E., Bernhard R. B., Davidson W. E., Haynes G., See T. H., Tsou P., and Brownlee D. E. 1998. Capture of hypervelocity particles with low-density aerogel. Rep. TM-98-201792, NASA Johnson Spaceflight Cent., Houston, Texas.
  • Hörz F., Bastien R., Borg J., Bradley J. P., Bridges J. C., Brownlee D. E., Burchell M. J., Cintala M. J., Dai Z. R., Djouadi Z., Dominguez G., Economou T. E., Fairey S. A. J., Floss C., Franchi I. A., Graham G. A., Green S. F., Heck H., Hoppe P., Huth J., Ishii H., Kearsley A. T., Kissel J., Leitner J., Leroux H., Marhas M., Messenger K., Schwandt C. S., See T. H., Snead S., Stadermann F. J., Stephan T., Stroud R., Teslich N., Trigo-Rodríguez J. M., Tuzzolino A. J., Troadec D., Tsou P., Warren J., Westphal A., Wozniakiewicz P. J., Wright I., and Zinner E. 2006. Impact features on Stardust: Implications for comet 81P/Wild 2 dust. Science 314:17161719.
  • Hörz F., Cintala M. J., See T. H., and Nakamura-Messenger K. 2009. Penetration tracks in aerogel produced by Al2O3 spheres. Meteoritics & Planetary Science 44:12431264.
  • Iida Y, Tsuchiyama A, Kadono T, Sakamoto K., Nakamura T., Uesugi K., Nakano T., and Zolensky M. 2010. Three-dimensional shapes and Fe contents of Stardust impact tracks: A track formation model and estimation of comet Wild 2 coma dust particle densities. Meteoritics & Planetary Science 45:13021319.
  • Jones S. M. 2007. A method for producing gradient density aerogel. Journal of Sol-Gel Science and Technology 44:255258.
  • Kearsley A. T., Burchell M. J., Hörz F., Cole M. J., and Schwandt C. S. 2006. Laboratory simulations of impacts upon aluminum foils of the Stardust spacecraft: Calibration of dust particle size from comet Wild 2. Meteoritics & Planetary Science 41:167180.
  • Kearsley A. T., Graham G. A., Burchell M. J., Cole M. J., Dai Z., Teslich N., Chater R. J., Wozniakiewicz P. J., Spratt J., and Jones G. 2007. Analytical scanning and transmission electron microscopy of laboratory impacts on Stardust aluminum foils: Interpreting impact crater morphology and the composition of impact residues. Meteoritics & Planetary Science 42:191210.
  • Kearsley A. T., Borg J., Graham G. A., Burchell M. J., Cole M. J., Leroux H., Bridges J. C., Hörz F., Wozniakiewicz P. J., Bland P. A., Bradley J. P., Dai Z. R., Teslich N., See T., Hoppe P., Heck P. R., Huth J., Stadermann F. J., Floss C., Marhas K., Stephan T., and Leitner J. 2008a. Dust from comet Wild 2: Interpreting particle size, shape, structure and composition from impact features on the Stardust aluminum foils. Meteoritics & Planetary Science 43:4174.
  • Kearsley A. T., Graham G. A., Burchell M. J., Cole M. J., Wozniakiewicz P. J., Teslich N., Bringa E., Hörz F., Blüm P., and Poppe T. 2008b. Micro-craters in aluminum foils on NASA’s Stardust spacecraft: Implications for dust microparticles emanating from comet Wild 2. International Journal of Impact Engineering 35:16161624.
  • Kearsley A. T., Burchell M. J., Price M. C., Graham G. A., Wozniakiewicz P. J., Cole M. J., Foster N. J., and Teslich N. 2009. Interpretation of Wild 2 dust fine structure: Comparison of Stardust aluminum foil craters to three dimensional shape of experimental impacts by artificial aggregate particles and meteorite powders. Meteoritics & Planetary Science 44:14891510.
  • Kearsley A. T., Burchell M. J., Price M. C., Cole M. J., Wozniakiewicz P. J., Ishii H. A., Bradley J. P., Fries M., and Foster N. J. 2012. Experimental impact features in Stardust aerogel: How track morphology reflects particle structure, composition and density. Meteoritics & Planetary Science, this issue.
  • Kitazawa Y., Fujiwara A., Kadono T., Imagawa K., Okada Y., and Uematsu K. 1999. Hypervelocity impact experiments on aerogel dust collector. Journal of Geophysical Research 104:2203522052.
  • Noguchi T., Nakamura T., Kumara K., Yano H., Sugita S., and Burchell M. J. 2007. Thermal alteration of hydrated minerals during hypervelocity capture to silica aerogel at the flyby speed of Stardust. Meteoritics & Planetary Science 42:357372.
  • Okudaira K., Noguchi T., Nakamura T., Sugita S., Sekine Y., and Yano H. 2004. Evaluation of mineralogical alteration of mcrometeoroid analog materials captured in aerogel. Advances in Space Research 34:22992304.
  • Price M. C., Kearsley A. T., Burchell M. J., Hörz F., Borg J., Bridges J. C., Cole M. J., Floss C., Graham G., Green S. F., Hoppe P., Leroux H., Marhas K. K., Park N., Stroud R., Stadermann F. J., and Wozniakiewicz P. J. 2010. Comet 81P/Wild 2: The size distribution of finer (sub 10 micrometer) dust collected by the Stardust Spacecraft. Meteoritics & Planetary Science 45:14091428.
  • Sandford S. A. 2008. Terrestrial analysis of the organic component of comet dust. Annual Review of Analytical Chemistry 1:549578.
  • Trigo-Rodríguez J. M., Dominguez G., Burchell M. J., Hörz F., and Llorca J. 2008. Bulbous tracks arising from hypervelocity capture in aerogel. Meteoritics & Planetary Science 43:7586.
  • Tsou P., Brownlee D. E., Sandford S. A., Hörz F., and Zolensky M. E. 2003. Wild 2 and interstellar sample collection and Earth return. Journal of Geophysical Research 108, 8113, doi:10.1029/2003JE002109.