Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Germany
- France
- United Kingdom
- Portugal
- Sweden
- United Arab Emirates
- Norway
- Belgium
- Italy
- Poland
- Netherlands
- Austria
- Denmark
- Spain
- Singapore
- China
- Luxembourg
- Japan
- Ireland
- Switzerland
- Estonia
- Romania
- Australia
- Finland
- Canada
- Czech
- Greece
- Hong Kong
- Saudi Arabia
- Andorra
- Armenia
- Brazil
- Bulgaria
- Iceland
- India
- Israel
- Mexico
- Slovenia
- Uzbekistan
- 30 more »
- « less
-
Program
-
Field
- Computer Science
- Economics
- Medical Sciences
- Mathematics
- Engineering
- Business
- Biology
- Science
- Materials Science
- Environment
- Education
- Earth Sciences
- Arts and Literature
- Chemistry
- Law
- Psychology
- Physics
- Social Sciences
- Sports and Recreation
- Linguistics
- Electrical Engineering
- Humanities
- Philosophy
- Design
- Statistics
- 15 more »
- « less
-
ALMA MATER STUDIORUM - UNIVERSITA' DI BOLOGNA - - DIPARTIMENTO DI FISICA E ASTRONOMIA | Italy | 13 days ago
Infrastructure? No Offer Description The activities will focus on two main, complementary research lines. 1) Analytical-numerical modelling of the tsunami wave generation process from various source types
-
a relevant numerate subject, for example, mathematics, operational research, statistics or economics. Ideally, you should have an emerging track record of peer-reviewed publications and research
-
(JCNS-1) Project 3: Combined X-ray and neutron single-crystal high-pressure diffraction in diamond anvil cells (JCNS-2) Project 4: Experimental and numerical investigation of the heat flow generated by
-
heterostructures. This position offers opportunities for collaborative theory development, advanced numerical modeling, and participation in a vibrant, multi-institutional research environment. Regular joint
-
. The project involves numerical modeling to investigate the physico-chemical processing of radioactive iodine emissions as they disperse in the atmosphere. Understanding these processes, and especially
-
, testing, and analysis of resilient and sustainable geotechnical systems using centrifuge modeling. The work will bridge advanced experimental testing with complementary numerical simulation to generate
-
"Phase-space-inspired numerical methods for high-frequency wave scattering: from semiclassical analysis through numerical analysis to implementation". The design of fast and reliable algorithms
-
asymptotic analysis and other perturbation methods, and numerical, i.e. an existing in-house code will be modified to achieve the objectives. This project offers the unique opportunity to develop strong skills
-
. The successful candidate will contribute to the development of predictive numerical models and experimentally validated designs for intricate mechanical assemblies, deployable structures, compliant mechanisms, and
-
transfer This research combines advanced numerical simulation and artificial intelligence to develop predictive models for high-temperature multiphase flows, with specific relevance to steel casting