Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims
-
candidate low-dimensional magnetoelectrics; (b) evaluation of their magnetoelectric properties using density functional theory (DFT) and related computational methods; and (c) advancing theories of novel
-
list, Verified copy of doctoral degree certificate or documentation that clarifies when the degree of doctor is expected to be obtained Certified copies of other diplomas, list of completed academic
-
the research (max one page) CV including full list of publications, Copy of doctoral thesis, A copy of doctoral degree certificate or documentation that clarifies when the degree of doctor is expected to be
-
involve established software tools, such as: CHEMKIN-PRO for steady one-dimensional simulations of laminar flames with detailed chemistry. CONVERGE for unsteady three-dimensional simulations of turbulent
-
We are pleased to announce a postdoctoral position focusing on developing advanced computational techniques to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from
-
complete according to the instructions in the ad. The application must include: CV including relevant professional experience and knowledge. Copy of degree certificate for doctoral studies. Brief statement
-
preliminary research ideas is welcome but not required. (Maximum two A4 pages.) 3) Copy of diploma or link to or copy of doctoral dissertation. 4) If the applicant is from outside the EU and does not have
-
publication list, Verified copy of doctoral degree certificate or documentation that clarifies when the degree of doctor is expected to be obtained, Verified copies of other diplomas, list of completed academic
-
design. One of our group's goals is to create efficient surrogate models that reduce the computational cost of MD simulations by several orders of magnitude. Notable examples of our work in this area