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of the resulting numerical model. About the project/work tasks Develop a new time integration approach based on a wave phase resolved theoretical framework of a multiscale flow system composed of surface waves
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analytical skills in modelling time trends and prevalence data biostatistics for clinical trials and cohort studies experience working with large, multi-wave datasets (e.g., ABS, AIHW, HILDA) reputation at a
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solid work/life balance* World-changing technologies. Life-changing careers. Learn more about Sandia at: http://www.sandia.gov All details here. What Your Job Will Be Like Shape the Future of National
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analytical skills. Track record of publications in highly ranked journals and conferences. Proficiency in the use of full-wave electromagnetic computer simulation software, including CST Microwave Studio
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research hypothesis is that benthic and demersal fish produce and respond to vibrations. When signalling fish contact a substrate, they generate different types of mechanical waves that propagate through
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hypothesis is that benthic and demersal fish produce and respond to vibrations. When signalling fish contact a substrate, they generate different types of mechanical waves that propagate through both the water
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and numerical methods for analyzing stochastic transport equations, which are critical for understanding how random fluctuations affect dynamic systems such as turbulence, water waves, and compressible
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gravitational waves, by pioneering the weak coupling frontier through the use of cutting-edge quantum sensors and devices. QUP operates under a distinctive organizational model in which researchers from a broad
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, High Energy Astrophysics , Numerical Astrophysics , particle astrophysics , Theoretical Astrophysics , Theoretical Physics / Astrophysics, Cosmology, Gravitational waves, Particle physics (theoretical
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affect dynamic systems such as turbulence, water waves, and compressible fluid motion. The research will focus on hyperbolic-parabolic partial differential equations, nonlinear wave equations, and