ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey

D. E. Trilling; M. Mueller; J. L. Hora; A. W. Harris; B. Bhattacharya; W. F. Bottke; S. Chesley; M. Delbo; J. P. Emery; G. Fazio; A. Mainzer; B. Penprase; H. A. Smith; T. B. Spahr; J. A. Stansberry; C. A. Thomas

doi:10.1088/0004-6256/140/3/770

ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey

D. E. Trilling
, M. Mueller
, J. L. Hora
, A. W. Harris
, B. Bhattacharya
, W. F. Bottke
, S. Chesley
, M. Delbo
, J. P. Emery
, G. Fazio
, A. Mainzer
, B. Penprase
, H. A. Smith
, T. B. Spahr
, J. A. Stansberry
, C. A. Thomas

Research output: Contribution to journal › Article › Academic › peer-review

78 Citations (Scopus)

Abstract

We have begun the ExploreNEOs project in which we observe some 700 Near-Earth Objects (NEOs) at 3.6 and 4.5 μm with the Spitzer Space Telescope in its Warm Spitzer mode. From these measurements and catalog optical photometry we derive albedos and diameters of the observed targets. The overall goal of our ExploreNEOs program is to study the history of near-Earth space by deriving the physical properties of a large number of NEOs. In this paper, we describe both the scientific and technical construction of our ExploreNEOs program. We present our observational, photometric, and thermal modeling techniques. We present results from the first 101 targets observed in this program. We find that the distribution of albedos in this first sample is quite broad, probably indicating a wide range of compositions within the NEO population. Many objects smaller than 1 km have high albedos (gsim0.35), but few objects larger than 1 km have high albedos. This result is consistent with the idea that these larger objects are collisionally older, and therefore possess surfaces that are more space weathered and therefore darker, or are not subject to other surface rejuvenating events as frequently as smaller NEOs.

Original language	English
Pages (from-to)	770-784
Journal	The Astronomical Journal
Volume	140
Issue number	3
DOIs	https://doi.org/10.1088/0004-6256/140/3/770
Publication status	Published - 1-Sept-2010
Externally published	Yes

Keywords

minor planets
asteroids: general
infrared: planetary systems
surveys

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10.1088/0004-6256/140/3/770

http://adsabs.harvard.edu/abs/2010AJ....140..770T

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Trilling, D. E., Mueller, M., Hora, J. L., Harris, A. W., Bhattacharya, B., Bottke, W. F., Chesley, S., Delbo, M., Emery, J. P., Fazio, G., Mainzer, A., Penprase, B., Smith, H. A., Spahr, T. B., Stansberry, J. A., & Thomas, C. A. (2010). ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey. The Astronomical Journal, 140(3), 770-784. https://doi.org/10.1088/0004-6256/140/3/770

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title = "ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey",

abstract = "We have begun the ExploreNEOs project in which we observe some 700 Near-Earth Objects (NEOs) at 3.6 and 4.5 μm with the Spitzer Space Telescope in its Warm Spitzer mode. From these measurements and catalog optical photometry we derive albedos and diameters of the observed targets. The overall goal of our ExploreNEOs program is to study the history of near-Earth space by deriving the physical properties of a large number of NEOs. In this paper, we describe both the scientific and technical construction of our ExploreNEOs program. We present our observational, photometric, and thermal modeling techniques. We present results from the first 101 targets observed in this program. We find that the distribution of albedos in this first sample is quite broad, probably indicating a wide range of compositions within the NEO population. Many objects smaller than 1 km have high albedos (gsim0.35), but few objects larger than 1 km have high albedos. This result is consistent with the idea that these larger objects are collisionally older, and therefore possess surfaces that are more space weathered and therefore darker, or are not subject to other surface rejuvenating events as frequently as smaller NEOs.",

keywords = "minor planets, asteroids: general, infrared: planetary systems, surveys",

author = "Trilling, \{D. E.\} and M. Mueller and Hora, \{J. L.\} and Harris, \{A. W.\} and B. Bhattacharya and Bottke, \{W. F.\} and S. Chesley and M. Delbo and Emery, \{J. P.\} and G. Fazio and A. Mainzer and B. Penprase and Smith, \{H. A.\} and Spahr, \{T. B.\} and Stansberry, \{J. A.\} and Thomas, \{C. A.\}",

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doi = "10.1088/0004-6256/140/3/770",

language = "English",

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Trilling, DE, Mueller, M, Hora, JL, Harris, AW, Bhattacharya, B, Bottke, WF, Chesley, S, Delbo, M, Emery, JP, Fazio, G, Mainzer, A, Penprase, B, Smith, HA, Spahr, TB, Stansberry, JA & Thomas, CA 2010, 'ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey', The Astronomical Journal, vol. 140, no. 3, pp. 770-784. https://doi.org/10.1088/0004-6256/140/3/770

TY - JOUR

T1 - ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey

AU - Trilling, D. E.

AU - Mueller, M.

AU - Hora, J. L.

AU - Harris, A. W.

AU - Bhattacharya, B.

AU - Bottke, W. F.

AU - Chesley, S.

AU - Delbo, M.

AU - Emery, J. P.

AU - Fazio, G.

AU - Mainzer, A.

AU - Penprase, B.

AU - Smith, H. A.

AU - Spahr, T. B.

AU - Stansberry, J. A.

AU - Thomas, C. A.

PY - 2010/9/1

Y1 - 2010/9/1

N2 - We have begun the ExploreNEOs project in which we observe some 700 Near-Earth Objects (NEOs) at 3.6 and 4.5 μm with the Spitzer Space Telescope in its Warm Spitzer mode. From these measurements and catalog optical photometry we derive albedos and diameters of the observed targets. The overall goal of our ExploreNEOs program is to study the history of near-Earth space by deriving the physical properties of a large number of NEOs. In this paper, we describe both the scientific and technical construction of our ExploreNEOs program. We present our observational, photometric, and thermal modeling techniques. We present results from the first 101 targets observed in this program. We find that the distribution of albedos in this first sample is quite broad, probably indicating a wide range of compositions within the NEO population. Many objects smaller than 1 km have high albedos (gsim0.35), but few objects larger than 1 km have high albedos. This result is consistent with the idea that these larger objects are collisionally older, and therefore possess surfaces that are more space weathered and therefore darker, or are not subject to other surface rejuvenating events as frequently as smaller NEOs.

AB - We have begun the ExploreNEOs project in which we observe some 700 Near-Earth Objects (NEOs) at 3.6 and 4.5 μm with the Spitzer Space Telescope in its Warm Spitzer mode. From these measurements and catalog optical photometry we derive albedos and diameters of the observed targets. The overall goal of our ExploreNEOs program is to study the history of near-Earth space by deriving the physical properties of a large number of NEOs. In this paper, we describe both the scientific and technical construction of our ExploreNEOs program. We present our observational, photometric, and thermal modeling techniques. We present results from the first 101 targets observed in this program. We find that the distribution of albedos in this first sample is quite broad, probably indicating a wide range of compositions within the NEO population. Many objects smaller than 1 km have high albedos (gsim0.35), but few objects larger than 1 km have high albedos. This result is consistent with the idea that these larger objects are collisionally older, and therefore possess surfaces that are more space weathered and therefore darker, or are not subject to other surface rejuvenating events as frequently as smaller NEOs.

KW - minor planets

KW - asteroids: general

KW - infrared: planetary systems

KW - surveys

U2 - 10.1088/0004-6256/140/3/770

DO - 10.1088/0004-6256/140/3/770

M3 - Article

SN - 0004-6256

VL - 140

SP - 770

EP - 784

JO - The Astronomical Journal

JF - The Astronomical Journal

IS - 3

ER -

ExploreNEOs. I. Description and First Results from the Warm Spitzer Near-Earth Object Survey

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Keywords

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