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Earthquakes - on the moon (1981)

Nakamura, Y.

In: Other Sources

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Publication Date: 2011-08-18

Description: Information obtained with the Apollo lunar seismic stations is discussed. The four types of natural seismic sources that have been identified are described, viz., thermal moonquakes, deep moonquakes, meteoroid impacts, and shallow moonquakes. It is suggested that: (1) the thermal quakes represent the slow cracking and movement of surface rocks; (2) the deep quakes are induced by the tide-generating force of the earth's gravity; (3) the meteoroids responsible for most of the observed impacts are in the mass range from 1 to 100 kg and are clustered in groups near the earth's orbit; and (4) the shallow quakes are similar to intraplate earthquakes and indicate that the moon is as seismically active as the interior regions of the earth's tectonic plates. The structure of the lunar interior as inferred from seismic signals due to both the last three natural sources and 'artificial' impacts of used spacecraft is examined in detail.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Discovery; 6; 1, 19; 1981

Format: text

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2

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The Viking seismic experiment (1976)

Nakamura, Y. ; Kovach, R. L. ; Latham, G. V. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: A three-axis short-period seismometer is now operating on Mars in the Utopia Planitia region. The noise background correlates well with wind gusts. Although no quakes have been detected in the first 60 days of observation, it is premature to draw any conclusions about the seismicity of Mars. The instrument is expected to return data for at least 2 years.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 194; Dec. 17

Format: text

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3

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Lunar near-surface shear wave velocities at the Apollo landing sites as inferred from spectral amplitude ratios (1980)

Dorman, H. J. ; Latham, G. V. ; Horvath, P. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The horizontal-to-vertical amplitude ratios of the long-period seismograms are reexamined to determine the shear wave velocity distributions at the Apollo 12, 14, 15, and 16 lunar landing sites. Average spectral ratios, computed from a number of impact signals, were compared with spectral ratios calculated for the fundamental mode Rayleigh waves in media consisting of homogeneous, isotropic, horizontal layers. The shear velocities of the best fitting models at the different sites resemble each other and differ from the average for all sites by not more than 20% except for the bottom layer at station 14. The shear velocities increase from 40 m/s at the surface to about 400 m/s at depths between 95 and 160 m at the various sites. Within this depth range the velocity-depth functions are well represented by two piecewise linear segments, although the presence of first-order discontinuities cannot be ruled out.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 85; Nov. 10

Format: text

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4

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How we processed Apollo lunar seismic data (1980)

Nakamura, Y. ; Latham, G. V. ; Dorman, H. J.

In: Other Sources

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Publication Date: 2019-06-27

Description: The Apollo lunar seismic station network gathered data continuously at a rate of 3 x 10 to the 8th bits per day for nearly eight years until termination in September, 1977. The data were processed and analyzed using a PDP-15 minicomputer. On average, 1500 long-period seismic events were detected yearly. Automatic event detection and identification schemes proved unsuccessful because of occasional high noise levels and, above all, the risk of overlooking unusual natural events. The processing procedures which were finally chosen consist of plotting all the data on a compressed time scale, visually picking events from the plots, transferring event data to separate sets of tapes and performing detailed analyses using the latter. Many problems remain, especially in the automatic processing of extraterrestrial seismic signals.

Keywords: LUNAR AND PLANETARY EXPLORATION

Format: text

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5

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Seismic Q of the lunar upper mantle (1982)

Nakamura, Y. ; Koyama, J.

In: Other Sources

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Publication Date: 2019-06-28

Description: Shallow moonquake data are used to determine the frequency dependence of Q values for both compressional and shear waves in the upper mantle of the moon at frequencies between 3 and 8 Hz. The seismic P wave Q is estimated to be at least 4000 and is nearly independent of frequency or decreases slightly with increasing frequency, while the S wave Q increases from at least 4000 at 3 Hz to at least 7000 at 8 Hz. The rate of increase of Q(S) is approximately proportional to the 0.7 + or - 0.1 power of the frequency above 5 Hz. With the absence of other dissipation mechanisms, compressional heat loss may be a dominant factor in the lunar interior. Uncertainty remains, however, in the absolute values of Q's owing to the largely unknown detailed structure of the lunar upper mantle.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 87; June 10

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6

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Seismology on Mars (1977)

Anderson, D. L. ; Miller, W. F. ; Latham, G. V. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: High-quality data (uncontaminated by lander or wind noise) obtained with a three-axis short-period seismometer operating on Mars in the Utopia Planitia region are analyzed. No large events have been detected during the first five months of operation covered in the present paper. This indicates that Mars is less seismically active than the earth. Winds, and therefore a seismic background, began to intrude into the nighttime hours, starting with sol 119 (sol is a Martian day). The seismic background correlates well with wind velocity, and is proportional to the square of the wind velocity, as is appropriate for turbulent flow. A local seismic event of a magnitude of 3 and a distance of 110 km was detected on sol 80. It is interpreted as a natural seismic event.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 82; Sept. 30

Format: text

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7

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Shallow lunar structure determined from the passive seismic experiment (1975)

Dorman, J. ; Nakamura, Y. ; Duennebier, F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Data relevant to the shallow structure of the moon obtained at the Apollo seismic stations are compared with previously published results of the active seismic experiments. It is concluded that the lunar surface is covered by a layer of low seismic velocity which appears to be equivalent to the lunar regolith defined previously by geological observations. This layer is underlain by a zone of distinctly higher seismic velocity at all of the Apollo landing sites. The regolith thicknesses at the Apollo 11, 12, and 15 sites are estimated from the shear-wave resonance to be 4.4, 3.7, and 4.4 m, respectively. These thicknesses and those determined at the other Apollo sites by the active seismic experiments appear to be correlated with the age determinations and the abundances of extralunar components at the sites.

Keywords: LUNAR AND PLANETARY EXPLORATION

Format: text

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8

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Alsep data processing: How we processed Apollo Lunar Seismic Data (1979)

Nakamura, Y. ; Dorman, H. J. ; Latham, G. V.

In: CASI

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Publication Date: 2019-06-27

Description: The Apollo lunar seismic station network gathered data continuously at a rate of 3 x 10 to the 8th power bits per day for nearly eight years until the termination in September, 1977. The data were processed and analyzed using a PDP-15 minicomputer. On the average, 1500 long-period seismic events were detected yearly. Automatic event detection and identification schemes proved unsuccessful because of occasional high noise levels and, above all, the risk of overlooking unusual natural events. The processing procedures finally settled on consist of first plotting all the data on a compressed time scale, visually picking events from the plots, transferring event data to separate sets of tapes and performing detailed analyses using the latter. Many problems remain especially for automatically processing extraterrestrial seismic signals.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-CR-160141

Format: application/pdf

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Overview

9

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Field Measurements of Penetrator Seismic Coupling in Sediments and Volcanic Rocks (1979)

Latham, G. V. ; Frohlich, C. ; Murphy, J. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Field experiments were conducted to determine how well a seismometer installed using a penetrator would be coupled to the ground. A dry-lake bed and a lava bed were chosen as test sites to represent geological environments of two widely different material properties. At each site, two half-scale penetrators were fired into the ground, a three-component geophone assembly was mounted to the aft end of each penetrator, and dummy penetrators were at various distances to generate seismic signals. These signals were detected by the penetrator-mounted geophone assembly and by a reference geophone assembly buried or anchored to surface rock and 1-m from the penetrator. The recorded signals were digitized, and cross-spectral analyses were performed to compare the observed signals in terms of power spectral density ratio, coherence, and phase difference. The analyses indicate that seismometers deployed by penetrators will be as well coupled to the ground as are seismometers installed by conventional methods for the frequency range of interest in earthquake seismology.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-TM-78572 , A-7770

Format: application/pdf

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10

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Structure of the lunar mantle (1976)

Nakamura, Y. ; Dorman, H. J. ; Latham, G. V. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The structure of the lunar mantle is examined by using data on the decay of shear wave amplitude with distance and the relative arrival times of P and S waves. The new analysis confirms a previous lunar model based primarily upon travel times and more closely defines certain properties of the lunar mantle. A negative shear wave velocity gradient of 0.0013 (km/s)/km, shear wave Q of 4000, and Poisson's ratio of 0.250 plus or minus 0.025 are found for the upper mantle, which lies between the depths of 60 and 300 km. A rapid decrease of shear wave velocity with increasing depth is observed starting at around a 300-km depth, associated with a lower Q for shear waves. Poisson's ratio in the lower part of the middle mantle, which extends to a depth of about 1000 km, is estimated to be 0.36 plus or minus 0.02.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 81; Sept. 10

Format: text

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