Sharon K. Reamer scite author profile

Sharon K. Reamer

5Publications

75Citation Statements Received

23Citation Statements Given

How they've been cited

147

How they cite others

175

Affiliations

University of Cologne, Vinzenz Pallotti Hospital Bensberg, Southern Methodist University

Publications

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Regularized two‐dimensional Fourier gravity inversion method with application to the Silent Canyon caldera, Nevada

Reamer

Ferguson

1989

GEOPHYSICS

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A modification of the 2‐D Fourier gravity inversion method includes regularization and a linear density variation with depth. Explicit downward continuation in the Fourier inversion of gravity observations from mass distributions at depth produces instability in the presence of noise and shallow mass distributions. A data‐adaptive regularization filter tapers growth of the exponential continuation function. An empirical relationship between the regularization filter parameter and a parametric model of potential field spectra results in automatic selection of the filter parameter for a given continuation depth. Inversion of synthetic data from a random noise‐contaminated basin type model produces a depth model that agrees with the synthetic structure with an rms error commensurate with the data noise. A model of the Silent Canyon caldera, buried beneath Pahute Mesa at the Nevada Test Site, results in a gravity field that agrees with the observations to within a 4 percent rms error. The caldera gravity model supports the hypothesis of a high‐density half‐space (precaldera lithology) beneath a lower density caldera infill (postcaldera volcanic activity).

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Seismicity, seismotectonics, and seismic hazard in the northern Rhine area

Hinzen¹,

Reamer²

2007

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Reassessing the Mycenaean Earthquake Hypothesis: Results of the HERACLES Project from Tiryns and Midea, Greece

Hinzen

Maran

Hinojosa-Prieto

et al. 2018

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Quantitative methods in archaeoseismology

Hinzen

Fleischer

Reamer

et al. 2011

Quaternary International

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Moment release in the Lower Rhine Embayment, Germany: seismological perspective of the deformation process

Schmedes¹,

Hainzl²,

Reamer³

et al. 2005

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S U M M A R YAn important task of seismic hazard assessment consists of estimating the rate of seismic moment release which is correlated to the rate of tectonic deformation and the seismic coupling. However, the estimations of deformation depend on the type of information utilized (e.g. geodetic, geological, seismic) and include large uncertainties. We therefore estimate the deformation rate in the Lower Rhine Embayment (LRE), Germany, using an integrated approach where the uncertainties have been systematically incorporated. On the basis of a new homogeneous earthquake catalogue we initially determine the frequency-magnitude distribution by statistical methods. In particular, we focus on an adequate estimation of the upper bound of the Gutenberg-Richter relation and demonstrate the importance of additional palaeoseismological information. The integration of seismological and geological information yields a probability distribution of the upper bound magnitude. Using this distribution together with the distribution of Gutenberg-Richter a and b values, we perform Monte Carlo simulations to derive the seismic moment release as a function of the observation time. The seismic moment release estimated from synthetic earthquake catalogues with short catalogue length is found to systematically underestimate the long-term moment rate which can be analytically determined. The moment release recorded in the LRE over the last 250 yr is found to be in good agreement with the probability distribution resulting from the Monte Carlo simulations. Furthermore, the long-term distribution is within its uncertainties consistent with the moment rate derived by geological measurements, indicating an almost complete seismic coupling in this region. By means of Kostrov's formula, we additionally calculate the full deformation rate tensor using the distribution of known focal mechanisms in LRE. Finally, we use the same approach to calculate the seismic moment and the deformation rate for two subsets of the catalogue corresponding to the east-and west-dipping faults, respectively.

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Sharon K. Reamer

Regularized two‐dimensional Fourier gravity inversion method with application to the Silent Canyon caldera, Nevada

Seismicity, seismotectonics, and seismic hazard in the northern Rhine area

Reassessing the Mycenaean Earthquake Hypothesis: Results of the HERACLES Project from Tiryns and Midea, Greece

Quantitative methods in archaeoseismology

Moment release in the Lower Rhine Embayment, Germany: seismological perspective of the deformation process

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