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Microcraters on lunar samples (1977)

Storzer, D. ; Hartung, J. B. ; Fechtig, H. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: The lunar microcrater phenomenology is described. The morphology of the lunar craters is in almost all aspects simulated in laboratory experiments in the diameter range from less than 1 nu to several millimeters and up to 60 km/s impact velocity. An empirically derived formula is given for the conversion of crater diameters into projectile diameters and masses for given impact velocities and projectile and target densities. The production size frequency distribution for lunar craters in the crater size range from approximately 1 nu to several millimeters in diameter is derived from various microcrater measurements within a factor of up to 5. Particle track exposure age measurements for a variety of lunar samples have been performed. They allow the conversion of the lunar crater size frequency production distributions into particle fluxes. The development of crater populations on lunar rocks under self-destruction by subsequent meteoroid impacts and crater overlap is discussed and theoretically described. Erosion rates on lunar rocks on the order of several millimeters per 10 yr are calculated. Chemical investigations of the glass linings of lunar craters yield clear evidence of admixture of projectile material only in one case, where the remnants of an iron-nickel micrometeorite have been identified.

Keywords: ASTROPHYSICS

Type: NASA, Washington The Soviet-Am. Conf. on Cosmochem. of the Moon and Planets, Pt. 2; p 585-603

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Lunar microcraters - Implications for the micrometeoroid complex (1975)

Fechtig, H. ; Gault, D. E. ; Vedder, J. F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: (For abstract see issue 03, p. 459, Accession no. A75-13187)

Keywords: LUNAR AND PLANETARY EXPLORATION

Format: text

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Catastrophic rupture of lunar rocks - A Monte Carlo simulation (1975)

Brownlee, D. E. ; Gault, D. E. ; Hoerz, F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: A computer model based on Monte Carlo techniques was developed to simulate the destruction of lunar rocks by 'catastrophic rupture' due to meteoroid impact. Energies necessary to accomplish catastrophic rupture were derived from laboratory experiments. A crater-production rate derived from lunar rocks was utilized to calculate absolute time scales. Calculated median survival times for crystalline lunar rocks are 1.9, 4.6, 10.3, and 22 m.y. for rock masses of 10, 100, 1000, and 10,000 g, respectively. Corresponding times of 6, 14.5, 32, and 68 million years are required before the probability of destruction reaches 0.99. These results are consistent with absolute exposure ages measured on returned rocks. Some results also substantiate previous conclusions that the catastrophic-rupture process is significantly more effective in obliterating lunar rocks than mass wasting by single-particle abrasion. The view is also corroborated that most rocks presently on the lunar surface either are exhumed from the regolith or are fragments of much larger boulders rather than primary ejecta excavated from pristine bedrock.

Keywords: LUNAR AND PLANETARY EXPLORATION

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