Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Spain
- Portugal
- Norway
- Italy
- Belgium
- Germany
- Netherlands
- Denmark
- Ireland
- Sweden
- Japan
- Singapore
- Brazil
- Finland
- United Arab Emirates
- Austria
- Canada
- Czech
- Estonia
- Poland
- Australia
- China
- Hong Kong
- Israel
- Croatia
- Romania
- Andorra
- Guadeloupe
- Slovakia
- Taiwan
- 23 more »
- « less
-
Program
-
Field
-
. Currently available topics, application and more information: https://phdquantumgrenoble.univ-grenoble-alpes.fr/phd-application/available-phd-subjects PhD subjects (full list available via the attached link
-
the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively participate in research
-
2AZ, United Kingdom of Great Britain and Northern Ireland [map ] Subject Areas: Physics / GR-Cosmology (gr-qc) , Gravitational Waves , hep-th , Particle/Cosmology Theory , Physics Appl Deadline: 2025
-
wave theory ᆞAtomistic-spin simulations ᆞMicromagnetic simulations Terms and Application: ᆞStart Date: As early as July 1, 2026. ᆞDuration: One year (initial), extendable for one additional year
-
the working group focus is the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively
-
encouraged to visit the ESA website: http://www.esa.int Field(s) of activity/research for the traineeship As part of the Wave Interaction and Propagation Section, you will contribute to consolidating
-
concepts targeting high-frequency gravitational waves and develops related technologies.In the NEST (Nano-membrane Experiment for Space-time Tremors) project, we aim to advance nanomechanical membrane
-
cameras to characterize flow and wave parameters. - Numerical modeling of laboratory experiments. This work is part of and funded by the ANR Slide2Wave program, coordinated by Philippe Gondret (FAST
-
controlled spatial periodicity and tunable disorder landscapes, our experimental system can be driven across regimes ranging from linear-wave dynamics to solitonic states and fully developed turbulence. By
-
Statistics. The UCD Relativity group invites applications for an ERC-funded Research Scientist position in gravitational-wave source modelling, with a focus on small mass-ratio binaries and second-order