Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Portugal
- United Kingdom
- France
- Germany
- Sweden
- Norway
- Netherlands
- Singapore
- Poland
- Spain
- Belgium
- Denmark
- Italy
- Australia
- United Arab Emirates
- Finland
- Romania
- Switzerland
- Czech
- Austria
- Ireland
- Estonia
- Luxembourg
- Japan
- Morocco
- China
- Canada
- Latvia
- Brazil
- Greece
- Lithuania
- Andorra
- Croatia
- Hong Kong
- Israel
- Cyprus
- India
- Mexico
- Slovenia
- Taiwan
- Vietnam
- Europe
- Iceland
- Malta
- Sao Tome and Principe
- Saudi Arabia
- Slovakia
- 38 more »
- « less
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Economics
- Biology
- Science
- Materials Science
- Mathematics
- Business
- Chemistry
- Education
- Electrical Engineering
- Psychology
- Earth Sciences
- Environment
- Law
- Arts and Literature
- Physics
- Linguistics
- Humanities
- Social Sciences
- Philosophy
- Sports and Recreation
- 13 more »
- « less
-
schools in the world. For more details, please view https://www.ntu.edu.sg/mae/research . Our team is seeking a highly motivated Research Assistant to contribute to cutting-edge research in embodied AI and
-
the next-generation regional climate model ICON‑CLM to run convection‑permitting simulations (≈2.2 km) over Equatorial East Africa. By transitioning to kilometer-scale modeling, this research overcomes
-
opportunities to (i) better integrate model and observational data, (ii) represent key physical processes in a short-term forecasting context, and (iii) characterize the uncertainty of these simulators. Where
-
scenarios. The research combines field experiments, AI-based analysis of museum specimens, and advanced climate modeling to provide process-based insights into the ecological and economic consequences
-
to complementary physical properties of thermal, combustion and detonation. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UPR3346-NADMAA-156/Candidater.aspx Requirements Research
-
theoretical models and numerical tools (master equations, quantum trajectory simulations) to investigate coupling regimes, dynamical phase transitions, and the effects of collective dissipation on coherence and
-
full-wave simulations and characterize the relevant metamaterial structures. Extend existing analytical tools and numerical models. Prepare and publish scientific articles and reports and co-supervise
-
that combines novel skill sets within biomechanics, bionanomaterials, robotics, and cancer biology. Snail locomotion and actuation strategies will be investigated via computer simulations and studies of live
-
; Giauque et al., 2023). The PhD work is structured around the following key milestones: 1. Implementation and validation of real-gas model: Develop, verify and validate real gas equations of state capable
-
the development and refinement of Monte Carlo simulation generators to accurately model neutrino interactions with various target materials. Detailed comparisons of these simulations to data from existing neutrino