Senior Geoscientist (Geophysicist) – Modeling & Simulation
Responsibilities
This position is for upcoming work and is contingent upon task award/funding. This will be an onsite position in Albuquerque, NM.
We are seeking an experienced and highly skilled Senior Geoscientist (Geophysicist) to support critical modeling and simulation efforts in support of conventional weapons effects and weapons penetration programs. In this role, you will apply advanced geophysical and geomechanical expertise to characterize subsurface environments, develop high-fidelity physics-based models, and inform weapons system performance assessments. You will collaborate with a multidisciplinary team of scientists and engineers in a dynamic, mission-driven environment supporting national defense objectives.
This position is located at our Albuquerque, NM facility and requires direct engagement with government customers and technical counterparts.
- Develop, validate, and execute geology characterization and penetration models to support conventional weapons effects assessments and penetration testing programs
- Conduct multiphysics modeling and computational fluid dynamics (CFD) analyses to simulate weapon-soil/rock interactions across diverse geologic environments
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness evaluations
- Analyze and predict ground shock propagation, energy coupling, and attenuation through varied subsurface media to support lethality and effectiveness