Asteroid spectroscopy: Progress and perspectives

Abstract The following discussion is divided into seven major sections. The first section outlines the scientific background and justification for asteroid studies in the context of understanding the formation and early evolution of the solar system. The second section briefly reviews the nature and distribution of the asteroid population. The third section discusses several major unresolved issues in asteroid and meteorite science which can potentially be addressed by asteroid remote sensing investigations. The fourth section outlines the nature and definition of the asteroid taxonomic classes. The fifth section summarizes the existing asteroidal spectral (and other remote sensing) data sets which are used to determine compositions and the techniques employed in the interpretation of such data. The sixth section explores the compositional meaning and diversity of these taxonomic classes and suggests meteoritic analogues for the taxonomic types. The seventh section describes the conclusions—or preliminary results—of several recent asteroid investigations which have focused on particular unsolved issues of the asteroid-meteorite relationship and of the early solar system properties. The final section discusses the overall conclusions and future directions.

[1]  J. Bell,et al.  S-asteroids 387 Aquitania and 980 Anacostia - Possible fragments of the breakup of a spinel-bearing parent body with CO3/CV3 affinities , 1992 .

[2]  R. Binzel The optical spectrum of 5145 Pholus , 1992 .

[3]  T. McCord,et al.  Vesta - The first pyroxene band from new spectroscopic measurements , 1977 .

[4]  W. Hartmann,et al.  Solid CN bearing material on outer solar system bodies , 1991 .

[5]  W. Hartmann,et al.  Extraordinary colors of asteroidal object (5145) 1992 AD , 1992 .

[6]  Edward F. Tedesco,et al.  Discovery of M class objects among the near-earth asteroid population , 1987 .

[7]  U. Fink,et al.  The steep red spectrum of 1992 AD: An asteroid covered with organic material? , 1992 .

[8]  L. Lebofsky,et al.  Spectroscopic evidence for aqueous alteration products on the surfaces of low-albedo asteroids , 1980 .

[9]  I. Shapiro,et al.  Mainbelt Asteroids: Dual-Polarization Radar Observations , 1985, Science.

[10]  P. Pellas Ordinary-chondrite-type asteroids in the main belt: Can we believe the zero abundance found by spectral studies from earth based telescopes? , 1988 .

[11]  D. Morrison,et al.  The E asteroids and the origin of the enstatite achondrites , 1977 .

[12]  G. Wetherill ASTEROIDAL SOURCE OF ORDINARY CHONDRITES , 1985 .

[13]  D. Morrison,et al.  Taxonomy of asteroids , 1978 .

[14]  F. Witteborn,et al.  Detection of silicate emission features in the 8- to 13-μm spectra of main belt asteroids , 1983 .

[15]  J. Bell,et al.  The composition and origin of the Iapetus dark material , 1985 .

[16]  G. Wetherill Dynamical relations between asteroids, meteorites and Apollo-Amor objects , 1987, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[17]  M J Gaffey,et al.  Phyllosilicate Absorption Features in Main-Belt and Outer-Belt Asteroid Reflectance Spectra , 1989, Science.

[18]  D. Morrison,et al.  Diameters and albedos of thirty-six asteroids , 1984 .

[19]  W. Hartmann,et al.  The Meteorite-Asteroid Connection: Two Olivine-Rich Asteroids , 1984, Science.

[20]  A. McEwen,et al.  Galileo Encounter with 951 Gaspra: First Pictures of an Asteroid , 1992, Science.

[21]  T. Jones An infrared reflectance study of water in outer belt asteroids: Clues to composition and origin. , 1988 .

[22]  D. Stevenson,et al.  Models of the Earth's Core , 1981, Science.

[23]  D. J. Tholen,et al.  The Eight-Color Asteroid Survey: Results for 589 Minor Planets , 1985 .

[24]  R. Clark,et al.  High spectral resolution reflectance spectroscopy of minerals , 1990 .

[25]  Carlos Jaschek,et al.  The classification of stars , 1987 .

[26]  Michael J. Gaffey,et al.  Calibrations of phase abundance, composition, and particle size distribution for olivine-orthopyroxene mixtures from reflectance spectra , 1986 .

[27]  A. J. Meadows,et al.  8- to 13-μm spectra of asteroids , 1985 .

[28]  E. Cloutis Spectral Reflectance Properties of Hydrocarbons: Remote-Sensing Implications , 1989, Science.

[29]  J. Bell Mineralogical clues to the origins of asteroid dynamical families , 1989 .

[30]  O. Hansen Thermal emission spectra of 24 asteroids and the Galilean satellites , 1976 .

[31]  L. Lebofsky Infrared reflectance spectra of asteroids - A search for water of hydration , 1980 .

[32]  H. McSween Are carbonaceous chondrites primitive or processed? A review , 1979 .

[33]  Larry A. Lebofsky,et al.  The composition and origin of the C, P, and D asteroids: Water as a tracer of thermal evolution in the outer belt , 1990 .

[34]  S. Gaffey,et al.  Spectral reflectance of carbonate minerals in the visible and near infrared (0.35–2.55 um): Anhydrous carbonate minerals , 1987 .

[35]  D. Matson,et al.  Infrared (JHK) photometry of asteroids. II , 1983 .

[36]  James G. Williams,et al.  Asteroid families - An initial search , 1992 .

[37]  Michael J. Gaffey,et al.  Spectral reflectance characteristics of the meteorite classes , 1976 .

[38]  G. Consolmagno,et al.  The nature of Low-Albedo asteroids from 3-μm multi-color photometry , 1989 .

[39]  G. Flynn Atmospheric entry heating: A criterion to distinguish between asteroidal and cometary sources of interplanetary dust , 1989 .

[40]  Radar Image of Asteroid 1989 PB , 1990, Science.

[41]  H. Melosh Impact ejection, spallation, and the origin of meteorites , 1984 .

[42]  Michael J. Gaffey,et al.  Relationship of E-type Apollo asteroid 3103 (1982 BB) to the enstatite achondrite meteorites and the Hungaria asteroids , 1992 .

[43]  John B. Adams,et al.  Visible and near‐infrared diffuse reflectance spectra of pyroxenes as applied to remote sensing of solid objects in the solar system , 1974 .

[44]  D. Tholen,et al.  Asteroid Taxonomy from Cluster Analysis of Photometry. , 1984 .

[45]  Angioletta Coradini,et al.  Classification of asteroids using G-mode analysis , 1987 .

[46]  John F. Mustard,et al.  Photometric phase functions of common geologic minerals and applications to quantitative analysis of mineral mixture reflectance spectra , 1989 .

[47]  H. McSween Aqueous alteration in carbonaceous chondrites - Mass balance constraints on matrix mineralogy , 1987 .

[48]  H. McSween,et al.  Heliocentric Zoning of the Asteroid Belt by Aluminum-26 Heating , 1993, Science.

[49]  David Jewitt,et al.  Charge-coupled device spectra of asteroids. I. Near-earth and 3:1 resonance asteroids , 1990 .

[50]  Mark V. Sykes,et al.  Zodiacal dust bands - Their relation to asteroid families , 1989 .

[51]  David Jewitt,et al.  CCD spectra of asteroids. II - The Trojans as spectral analogs of cometary nuclei , 1990 .

[52]  I. Belskaya,et al.  On the surface composition of the M-type asteroids , 1989 .

[53]  L. McFadden,et al.  CCD reflectance spectra of selected asteroids. I - Presentation and data analysis considerations , 1992 .

[54]  M. Gaffey,et al.  Mineralogical-petrological characterization of near-Earth asteroids , 1984 .

[55]  T V Johnson,et al.  Asteroid Vesta: Spectral Reflectivity and Compositional Implications , 1970, Science.

[56]  John B. Adams,et al.  4 – INTERPRETATION OF VISIBLE AND NEAR-INFRARED DIFFUSE REFLECTANCE SPECTRA OF PYROXENES AND OTHER ROCK-FORMING MINERALS , 1975 .

[57]  R. H. Brown,et al.  Organic Matter on Asteroid 130 Elektra , 1987, Science.

[58]  U. Fink,et al.  Spectroscopic evidence for two achondrite parent bodies: asteroids 349 Dembowska and 4 Vesta , 1980 .

[59]  R. Greenberg,et al.  Asteroids and meteorites - Parent bodies and delivered samples , 1983 .

[60]  Michael J. Gaffey,et al.  Metal silicate mixtures - Spectral properties and applications to asteroid taxonomy , 1990 .

[61]  K. M. Merrill,et al.  7.5–13.5 Micron spectra of Ceres and Vesta , 1975 .

[62]  H. McSween,et al.  Water and the thermal evolution of carbonaceous chondrite parent bodies , 1989 .

[63]  D. Britt,et al.  Reflection spectra of shocked ordinary chondrites and their relationship to asteroids , 1992 .

[64]  D. Davis,et al.  Collisional history of asteroids: Evidence from Vesta and the Hirayama families , 1985 .

[65]  G. J. Taylor Core formation in asteroids , 1992 .

[66]  F. Herbert Primordial electrical induction heating of asteroids , 1989 .

[67]  D. Matson,et al.  The R asteroids reconsidered , 1983 .

[68]  J. Williams,et al.  A Three-Parameter Asteroid Taxonomy , 1989 .

[69]  David Morrison,et al.  Surface properties of asteroids - A synthesis of polarimetry, radiometry, and spectrophotometry , 1975 .

[70]  Dorian G. W. Smith,et al.  Reflectance spectra of mafic silicate-opaque assemblages with applications to meteorite spectra , 1990 .

[71]  J. Gradie,et al.  Asteroid Families: Observational Evidence for Common Origins , 1977, Science.

[72]  W. Hartmann,et al.  Remote comets and related bodies: VJHK colorimetry and surface materials , 1982 .

[73]  J. Wisdom A perturbative treatment of motion near the 3/1 commensurability , 1985 .

[74]  Dale P. Cruikshank,et al.  Three basaltic earth-approaching asteroids and the source of the basaltic meteorites , 1991 .

[75]  R. Binzel,et al.  Chips off of Asteroid 4 Vesta: Evidence for the Parent Body of Basaltic Achondrite Meteorites , 1993, Science.

[76]  M. Gaffey,et al.  Near-Earth Asteroids: Possible Sources from Reflectance Spectroscopy , 1985, Science.

[77]  Roger G. Burns,et al.  Crystal field spectra and evidence of cation ordering in olivine minerals , 1970 .

[78]  Bradford A. Smith,et al.  Reflectance spectrophotometry (∼0.5–1.0 μm) of outer-belt asteroids: Implications for primitive, organic solar system material , 1985 .

[79]  Michael J. Gaffey,et al.  Pyroxene spectroscopy revisited - Spectral-compositional correlations and relationship to geothermometry , 1991 .

[80]  R. S. McCheyne,et al.  Observations of asteroids in the 3- to 4-μm region , 1983 .

[81]  George W. Wetherill,et al.  Where do the Apollo objects come from , 1988 .

[82]  U. Fink,et al.  Infrared spectral observations of asteroid 4 Vesta , 1975 .

[83]  G. Wasserburg,et al.  Calcium isotopic anomalies and the lack of aluminum-26 in an unusual Allende inclusion , 1979 .

[84]  Alberto Cellino,et al.  Asteroid Families. I. Identification by Hierarchical Clustering and Reliability Assessment , 1990 .

[85]  D. Morrison,et al.  J, H, K Photometry of 433 Eros and Other Asteroids , 1976 .

[86]  S. Gaffey,et al.  Spectral reflectance of carbonate minerals in the visible and near infrared (O.35-2.55 microns); calcite, aragonite, and dolomite , 1986 .

[87]  T. Johnson,et al.  Asteroids - Infrared photometry at 1.25, 1.65, and 2.2 microns , 1975 .

[88]  R. H. Brown,et al.  Evidence for Ammonium-Bearing Minerals on Ceres , 1991, Science.

[89]  D. Matson,et al.  Infrared /JHK/ photometry of asteroids , 1982 .

[90]  W. Ridley,et al.  Relation of the spectroscopic reflectance of olivine to mineral chemistry and some remote sensing implications , 1987 .

[91]  M. Leake,et al.  Infrared /JHK/ photometry of meteorites and asteroids , 1978 .

[92]  L. Lebofsky,et al.  The 1.7- to 4.2-μm spectrum of asteroid 1 Ceres: Evidence for structural water in clay minerals , 1981 .

[93]  Jennifer L. Piatek,et al.  Mineralogical Variations within the S-Type Asteroid Class , 1993 .

[94]  M. Lipschutz,et al.  Cumberland Falls chondritic inclusions - Mineralogy/petrology of a forsterite chondrite suite , 1981 .

[95]  E. Scott,et al.  Ubiquitous high‐FeO silicates in enstatite chondrites , 1987 .

[96]  B. Zellner 44 Nysa - An iron-depleted asteroid , 1975 .

[97]  Stephen M. Larson,et al.  Ferric Iron in Primitive Asteroids: A 0.43-μm Absorption Feature , 1993 .

[98]  J. Salisbury,et al.  Comparisons of meteorite and asteroid spectral reflectivities , 1973 .

[99]  James G. Williams,et al.  The positions of secular resonance surfaces , 1981 .

[100]  M. Gaffey Rotational spectral variations of asteroid (8) Flora: Implications for the nature of the S-type asteroids and for the parent bodies of the ordinary chondrites , 1984 .

[101]  C. Chapman,et al.  Spectroscopic evidence for undifferentiated S-type asteroids , 1982 .

[102]  D. Tholen,et al.  The nature of c-class asteroids from 3-μm spectrophotometry , 1985 .

[103]  M. Drake,et al.  The Meteorite-Asteroid Connection: The Infrared Spectra of Eucrites, Shergottites, and Vesta , 1980, Science.

[104]  I. Shapiro,et al.  Asteroid radar astrometry , 1991 .

[105]  P. Farinella,et al.  The Injection of Asteroid Fragments into Resonances , 1993 .

[106]  R. Burns Intervalence Transitions in Mixed Valence Minerals of Iron and Titanium , 1981 .

[107]  E. Tedesco,et al.  Compositional Structure of the Asteroid Belt , 1982, Science.

[108]  G. Wasserburg,et al.  Correction [to “Demonstration of 26Mg excess in Allende and evidence for 26Al”] , 1976 .

[109]  T. Hiroi,et al.  A method to determine silicate abundances from reflectance spectra with applications to asteroid 29 amphitrite associating it with primitive achondrite meteorites , 1990 .

[110]  D. Davis,et al.  Asteroid Collisional Evolution: Evidence for a Much Larger Early Population , 1975, Science.