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Recent Goldstone radar observations of selected near-Earth asteroids less than 140 m in diameter

Published online by Cambridge University Press:  01 March 2016

Marina Brozović
Affiliation:
Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA email: [email protected]
Lance A. M. Benner
Affiliation:
Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA email: [email protected]
Michael W. Busch
Affiliation:
SETI Institute, Mountain View, CA 94043, USA
Jon D. Giorgini
Affiliation:
Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA email: [email protected]
Martin A. Slade
Affiliation:
Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA email: [email protected]
Kenneth J. Lawrence
Affiliation:
Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA email: [email protected]
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Abstract

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Radar observations are a powerful technique to study near-Earth asteroids (NEAs). Goldstone's 3.75 m resolution capability is invaluable when attempting to image NEAs with diameters smaller than 140 m. The small NEAs are a very diverse population in which we continue to discover unusual objects.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2016 

References

Benner, L. A. M., Ostro, S. J., Magri, C., Nolan, M. C., Howell, E. S., Giorgini, J. D., Jurgens, R. F., Margot, J.-L., Taylor, P. A., Busch, M. W., & Shepard, M. K. 2008, Icarus, 198, 294CrossRefGoogle Scholar
Benner, L. A. M., Brozovic, M., Giorgini, J. D., Taylor, P. A., Howell, E. S., Busch, M. W., Nolan, M. C., Jao, J. S., Lee, C. G., Slade, M. A., Ford, H. A., & Ghigo, F. D. 2015, IAU General Assembly, 22, 57549Google Scholar
Bolin, B., Jedicke, R., Granvik, M., Brown, P., Howell, E., Nolan, M. C., Jenniskens, P., Chyba, M., Patterson, G., & Wainscoat, R., 2014, Icarus, 241, 280CrossRefGoogle Scholar
Brasser, R., Innanen, K. A., Connors, M., Veillet, C., Wiegert, P., & Mikkola, Seppo, Chodas, P. W. 2004, Icarus, 171, 102CrossRefGoogle Scholar
Brown, P., Pack, D., Edwards, W. N., Revelle, D. O., Yoo, B. B., Spalding, R. E., & Tagliaferri, E., 2004, Meteoritics & Planetary Science, 39, 1781CrossRefGoogle Scholar
Busch, M. W., Benner, L. A. M., Naidu, S. P., Brozovic, M., Richardson, J. E., Rivera-Valentin, E. G., Taylor, P. A., Ford, H. A., Ghigo, F. D., Giorgini, J. D., Jao, J. S., & Teitelbaum, L. 2015, DPS conference, 47, abstract 402.05Google Scholar
Connors, M., Chodas, P., Mikkola, S., Wiegert, P., Veillet, C., & Innanen, K. 2002, Meteoritics & Planetary Science, 37, 1435CrossRefGoogle Scholar
Christou, A. A. & Asher, D. J. 2011, MNRAS, 414, 2965CrossRefGoogle Scholar
Evans, J. V. & Hagfors, T. 1968, Radar Astronomy, MIT Lincoln Laboratory Publications, McGraw-Hill Inc., p. 53Google Scholar
Kwiatkowski, T., Kryszczyńska, A., Polińska, M., Buckley, D. A. H., O'Donoghue, D., Charles, P. A., Crause, L., Crawford, S., Hashimoto, Y., Kniazev, A., Loaring, N., RomeroColmenero, E. Colmenero, E., Sefako, R., Still, M., & Vaisanen, P. 2009, A&A, 495, 967Google Scholar
Mainzer, A., Grav, T., Bauer, J., Conrow, T., Cutri, R. M., Dailey, J., Fowler, J., Giorgini, J., Jarrett, T., Masiero, J., Spahr, T., Statler, T., & Wright, E. L. 2015, AJ, 149, 172CrossRefGoogle Scholar
Margot, J. L. & Nicholson, P. D. 2003, BAAS, 35, 1039Google Scholar
Ostro, S. J., Pravec, P., Benner, L. A. M., Hudson, R. S., Sarounova, L., Hicks, M. D., Rabinowitz, D. L., Scotti, J. V., Tholen, D. J., Wolf, M., Jurgens, R. F., Thomas, M. L., Giorgini, J. D., Chodas, P. W., Yeomans, D. K., Rose, R., Frye, R., Rosema, K. D., & Winkler, R., Slade, M. A. 1999, Science, 285, 557CrossRefGoogle Scholar
Ostro, S. J. & Giorgini, J. D. 2004, Mitigation of Hazardous Comets and Asteroids (Belton, M. J. S., Morgan, T. H., Samarasinha, N., Yeomans, D. K., eds.) Cambridge University Press, CambridgeGoogle Scholar
Pravec, P. & Harris, A. W. 2000, Icarus, 148, 12CrossRefGoogle Scholar
Quirk, K. & Srinivasan, M. 2013, The Interplanetary Network Progress Report, 42–192, 146Google Scholar
Sánchez, P. & Scheeres, D. J. 2014, Meteoritics & Planetary Science, 49, 788CrossRefGoogle Scholar
Scheeres, D. J., Hartzell, C. M., Schez, P., & Swift, M., 2010, Icarus, 210, 968CrossRefGoogle Scholar
Slade, M. A., Lee, C. G., Jao, J. S., Benner, L. A. M., Brozovic, M., Giorgini, J. D., & Busch, M. W., 2010, BAAS, 42, 1080Google Scholar
Slade, M. A., Benner, L. A. M., & Silva, A. 2011, Proc. of IEEE, 99, 757CrossRefGoogle Scholar
Wiegert, P., Connors, M., Chodas, P., Veillet, C., Mikkola, S., & Innanen, K., 2002, Eos Trans. AGU, P11A0352Google Scholar