Sort by
Refine Your Search
-
Listed
-
Country
-
Field
- Computer Science
- Medical Sciences
- Economics
- Engineering
- Mathematics
- Science
- Business
- Education
- Biology
- Environment
- Psychology
- Arts and Literature
- Materials Science
- Social Sciences
- Physics
- Chemistry
- Law
- Linguistics
- Earth Sciences
- Electrical Engineering
- Sports and Recreation
- Humanities
- 12 more »
- « less
-
/ applied mathematics (PDEs) with an experience in coding & numerical methods. A basic background in fluid mechanics/ free surface hydraulics would bring added value Additional Information Work Location(s
-
, numerical methods for multiphysics problems, and the development of numerical optimization methods for virtual design of metamaterials and structures. Do you want to be part of a dynamic research environment
-
numerical optimisation, matrix calculation, linear regression and the development of mathematical models and quantitative methods for the optimisation of industrial production, for the management
-
for motivated students in the field of numerical fluid mechanics and multi-physics simulation methods. Be part of change Analyze and optimize existing coupling strategies to improve the efficiency and scalability
-
Student (f/m/d) in Quantum Algorithms for Droplet and Bubble Oscillation Dynamics Modelling. Your tasks Development and implementation of numerical and algorithmic methods for the simulation of fluid
-
Numerical Methods for Functional Calculus Appl Deadline: 2026/05/01 04:59 AM UnitedKingdomTime (posted 2026/03/12 04:00 AM UnitedKingdomTime, listed until 2026/05/01 04:59 AM UnitedKingdomTime) Position
-
-level insights. Your work will be essential to exploring large design spaces, predicting device behavior, and identify optimal parameters without the prohibitive cost of fabricating numerous physical
-
and quantitative methods with applications of local and regional food systems and to provide analytic expertise to expand the Department's research portfolio. This position is to provide support in
-
the physical principles of structural dynamics and (vibro-)acoustics and the related numerical modeling techniques, such as the Finite Element Method (FEM), as well as numerical optimization, manufacturing
-
...) and a sharp interest in numerical methods and high performance computing. Knowledge in statistical physics, solid state physics, theoretical/quantum chemistry or atomistic modeling. Serious usage LAMMPS