Astronomy and Astrophysics – Astronomy
Scientific paper
Dec 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997aas...191.7107m&link_type=abstract
American Astronomical Society, 191st AAS Meeting, #71.07; Bulletin of the American Astronomical Society, Vol. 29, p.1318
Astronomy and Astrophysics
Astronomy
Scientific paper
Method is proposed for measuring the albedo of bodies populating the Kuiper belt (KB). This albedo likely refers to a primordial substance of the solar system because the KB population was not exposed to significant thermal and gravitational evolution over the lifetime of the solar system. Knowing the albedo of KB bodies, one can estimate the actual sizes of objects which have been observed in recent years by ground-based optical telescopes. The albedo can be directly measured by the location of the maximum of the KB infrared spectrum, L. The wavelengh of this maximum depends only on the width of the KB D and on the spatial distribution of its constituent objects (the surface density of KB objects is assumed to vary as R{(-a}) where R is the heliocentric distance). However, L is largely insensitive to both the a and D parameters over reasonable ranges (a = 2-4, maxR = 100-600 AU and minR = 50 AU). Therefore, the maximum position should determine the albedo practically independently of model parameters. One could expect to find the maximum of the KB infrared spectrum in the wavelength ranges 67-69 microns and 90-92 microns, e.g., for the albedos A = 0.04 and A = 0.7, respectively. The expected infrared brightness of the KB would be about 2.7x10{(-13}) Watt/cm{(2}) /sr ( at its maximum) if the average Bond albedo of its members is A = 0.04 (which is close to that of short-period comets) and about 0.84x10{(-13}) Watt/cm{(2}) /sr for A = 0.7 (as accepted for long-period and new comets) if its total mass M is about 1Mearth and the minimum size of its objects is about 0.3 km. If so, one would expect the contrast between the KB brightness and that of the infrared background due to galaxies and zodiacal light ( estimated at 5x10{(-12}) Watt/cm{(2}) /sr ) to be 5.6%-1.7%. While this is beyond the COBE sensitivity limit, it could be detectable by next-generation IR telescopes (SIRTF).
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