The Closing Date has been updated to February 19, 2019.
What General Information Do I Need to Know About This Position?
Menlo Park: $88,582 (Step 01) to $115,157 (Step 10)
Pasadena: $83,043 (Step 01) to $107,955 (Step 10); NOTE: First time hires to the Federal Government are typically hired at the Step 01.Learn more about this agency
There is one vacancy; however, this announcement may be used to fill additional vacancies if they become available.
Mendenhall Research Fellowship - Research Opportunity #17-2. The relation of earthquake stress drop to source physics and ground motion
The goals of our research under this Opportunity are to understand differences in methods for estimating stress drop in order to distinguish trends, more fully understand the energetics of earthquake rupture, and reduce uncertainty in measurements. Earthquake stress drop is an essential parameter for understanding the energetics of the earthquake source, as well as modeling high-frequency ground motion. Given the relationship between earthquake stress drop and strong ground motion, stress drop is one of the largest sources of uncertainty in ground-motion prediction equations (GMPEs). The uncertainty in GMPEs propagates into increased uncertainty in key USGS products such as ShakeMap and early warning alerts. Additionally, uncertainty in GMPEs dominates the uncertainty (over the seismic source characterization) in probabilistic seismic hazard analysis (PSHA), the backbone of USGS hazard maps.
In theory, stress drop is the difference between the initial and final stress of an earthquake rupture, but in practice is often modeled from a single parameter (i.e., the corner frequency) on a spectral recording, or from macro-observations such as the area over which an earthquake faulted. In addition, stress drop is a fundamental control on the excitation of high-frequency ground motion. The relationship between these different representations of stress drop is fraught with uncertainty, and so the exact physics governing these details is not well resolved. Additionally, many analytical methods are currently employed to estimate seismological stress drop from ground motion records, and often result in inconsistent estimates.
With current levels of uncertainty and variability in earthquake stress drop, it is difficult to truly discern source properties or determine the relationship of stress drop to predictive parameters, such as magnitude, location, depth, rupture area or focal mechanism. Additionally, this level of uncertainty renders any absolute stress drop values impractical for use as a predictive measure in ground-motion modeling, either with empirically based GMPEs or dynamic rupture models. The work undertaken by the Fellow is expected to reduce uncertainties in stress drop for earthquakes and improve our understanding of stress drop as a control on high-frequency ground motion, as well as determining physical variations (spatially, temporally or due to other source properties) of stress drop.
Proposed Duty Station: Pasadena, CA; Menlo Park, CA
Areas of Ph.D.: Geophysics, seismology, or related fields (candidates holding a Ph.D. in other disciplines, but with extensive knowledge and skills relevant to the Research Opportunity may be considered).
Qualifications: Applicants must meet one of the following qualifications: Research Geophysicist (This type of research is performed by those who have backgrounds for the occupations stated above. However, other titles may be applicable depending on the applicant's background, education, and research proposal. The final classification of the position will be made by the Human Resources specialist.)
(This type of research is performed by those who have backgrounds for the occupations stated above. However, other titles may be applicable depending on the applicant's background, education, and research proposal. The final classification of the position will be made by the Human Resources Specialist.)
Physical/Environmental Demands: Work is usually performed in an office setting. The work area: Normally involves everyday risks or discomforts that require normal safety precautions typical of offices or meeting and training rooms.
Operates a government motor vehicle as an incidental driver
Occasional travel - Overnight travel of 1 to 5 nights per month may be required.
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This job originated on www.usajobs.gov. For the full announcement and to apply, visit www.usajobs.gov/GetJob/ViewDetails/515814100. Only resumes submitted according to the instructions on the job announcement listed at www.usajobs.gov will be considered.