Evidence that the Moon is a rough scatterer at radio frequencies

Leadabrand, R. L.; Dyce, R. B.; Fredriksen, Åshild; Presnell, R. I.; Schlobohm, J. C.

doi:10.1029/jz065i010p03071

Cited by 6 publications

(1 citation statement)

References 5 publications

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“…The observations of Trexler , Yaplee, et al, and H ey and Hughes indi cated that ec hoes come only from a portion of the surface near the center of the di s k. This proved to be a consequence of the limited sensitivity of their equipment. Pettengill [1960] and Leadabrand et al, [1960] showed that echoes could be measured all th e way out to the limbs with a sufficiently powerful radar system. The first truly quantitative measurements of echo power ve rs us delay from the leading edge to the limb were performed by P e ttengill [1960] and Pettengill and H e nry [1962a] a t a wavelength of 68 cm using 65-f-tSec pulses.…”

Section: Ire Wh Ich Had the Moon Radiu S 2000 Miles)mentioning

confidence: 99%

Radar studies of the Moon

Evans¹

1965

J. RES. NATL. BUR. STAN. SECT. D. RAD. SCI.

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Accurate range measurements have been reported only by the group 'working at the Nava l Re· search Laboratory. Their most recent value for the mean center-to-center distance betwee n th e Earth and the Moon is 384,400.2 ± 1.1 km and is based upon a value for the Earth's radius of 6.378,170 m which seemed most cons istent with the observed diurnal variation in range.The absolut e cross section of the Moon has been determined over a wide range of wavelengths to a precision in most cases of ± 3 dB. Unfortunately, this uncertainty is too large to permit any definite conclusions to be drawn concerning the wavelength dependence in the cross section. The observations suggest th at the cross section remains cons tant at about 7 percent of the proj ec ted area of the Moon's disk at wavelengths in the range 1 cm to 1 m, and perhaps rises to 10 percent or higher at wavelengths in the range 1 to 10 m.Short-pulse observations ca n be used to exp lore th e angular dependence in the sca tterin g of radi o waves b y the lunar surface. Usefu l meas urem e nts have bee n tnade at wave le ngth s of 1130, 68,23, 10, and 3.6 em. The angu lar dependence has also been investigated at 8.6 mm , th ough here th e angu lar resolution afforded by a narrow pencil-beam a nte nna was e mployed. At all s ix 'wavele ngth s, it appears that part of th e ec ho arises from a hi ghli ght located at th e ce nt e r of the Moon 's visible disk_ A seco nd com ponent comes almost eq ually from th e re maining parts of th e surface. Th e divi sion of power in th e two compone nts changes mark ed ly as th e wavele ngth is red uced. At 68-cm wavele n gth, 80 percent of th e power is return ed fr om the highli ght , but at 8.6 mm only 15 percent ca n be associated with this co mp one nt. The angu lar power spec trum obse rved for th e power fro m th e highli ght also c ha nges with wavelength, indi cating that th e rm s slope of th e surface in c reases as th e wavelength is red uced. Th ese observations have been interpreted as indicat ing that there is a wid e range of structure sizes on the Moon.The deduced valu es of dielec tric co nstant ran ge from k = 2.79 down to k = 2.13. In view of th e greater experime nt al diffi c ulti es togeth e r with the doubtful validity of th e assumptions at 8.6-mm wavelength, this apparent wavelength dependence should be accepted with caution. If real, it may be ca used by the finit e co ndu ctivity of the mat erial (i.e., s "" a in (6)) or by inh omogeneity in th e surface layers -the den sit y pe rhap s in c reas ing sli ghtly with de pth. These val'ues ce rtainly indi ca te that th e surface is broke n or porous in texture -the material occupying perhaps about 30 percent of the available volume. In short, th e echo inte nsity and angular s pec trum is co mparable to that observed from aircraft over terrestrial des erts.

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Section: Ire Wh Ich Had the Moon Radiu S 2000 Miles)mentioning

confidence: 99%