Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- Germany
- United Kingdom
- Portugal
- Sweden
- Norway
- United Arab Emirates
- Belgium
- Netherlands
- Poland
- Spain
- Singapore
- Luxembourg
- Italy
- Austria
- Denmark
- China
- Switzerland
- Czech
- Finland
- Ireland
- Estonia
- Japan
- Australia
- Croatia
- Hong Kong
- Romania
- Greece
- Israel
- Brazil
- Canada
- Iceland
- Saudi Arabia
- South Africa
- Taiwan
- Andorra
- Armenia
- Bulgaria
- Cyprus
- India
- Malta
- Mexico
- Morocco
- New Zealand
- Sao Tome and Principe
- Slovenia
- 37 more »
- « less
-
Program
-
Field
- Computer Science
- Medical Sciences
- Engineering
- Economics
- Science
- Mathematics
- Materials Science
- Biology
- Business
- Chemistry
- Environment
- Earth Sciences
- Education
- Physics
- Law
- Psychology
- Social Sciences
- Arts and Literature
- Electrical Engineering
- Linguistics
- Sports and Recreation
- Humanities
- Design
- Philosophy
- Statistics
- 15 more »
- « less
-
environment, both technically, with numerous platforms, and scientifically, within the IRCELYON institute. The PhD will begin on October 1, 2026, and will last 36 months. It will be conducted at our IRCELYON
-
trips, plus an elective course. Examples of elective courses could include aqueous geochemistry, geomorphology, soils, glaciology, GIS, or numerical modeling. We are seeking candidates who can demonstrate
-
of electrochemical effects into numerical and theoretical models describing the flows within LMBs. These flows, driven by magnetohydrodynamic or thermal phenomena, can become unstable and lead to a short circuit of
-
and numerical methods, collaborate with top universities, secure government funding, and actively participate in CMIP6 and the upcoming CMIP7 using the in-house Taiwan Earth System Model (TaiESM
-
differential equations, spectral analysis, and scientific computing techniques. Proficiency in programming (MATLAB, Python, or equivalent) is required for developing and implementing numerical models. Experience
-
successfully applied to numerous protocols in the literature, providing security proofs or revealing new attacks. However, these formal (or symbolic) models do not allow for the modeling of probabilistic
-
well as outcrop information, within a rock physics framework. The objective is to extract a maximum of petrophysical information for reservoir model building and to detect sweet spots for geothermal exploitation
-
centrifuge experiments. Integrate findings with numerical models for validation and deeper interpretation. Develop innovative experimental apparatus (SolidWorks proficiency is a plus). Disseminate results
-
microfluidic devices used as proxies for the vaginal microbiome. The project will involve first principles mathematical modelling, analytical and/or numerical solution of simplified PDEs for flow physics and
-
Helmholtz-Zentrum Dresden-Rossendorf - HZDR - Helmholtz Association | Gorlitz, Sachsen | Germany | 1 day ago
# Development of high-accuracy atomistic models using efficient electronic structure methods, particularly for large-scale systems # Deepening the understanding of strongly correlated electron systems and real