Sort by
Refine Your Search
-
Listed
-
Employer
- CNRS
- Inria, the French national research institute for the digital sciences
- Institut Pasteur
- Nature Careers
- Université de Pau et des Pays de l'Adour
- CEA
- CEA Grenoble
- ENSICAEN
- Ecole Centrale de Lyon
- Ecole Normale Superieure
- Grenoble INP - Institute of Engineering
- IMT Atlantique
- IMT Mines Albi
- Télécom Paris
- Universite de Montpellier
- Université côte d'azur
- Université de Bordeaux / University of Bordeaux
- 7 more »
- « less
-
Field
-
variety of one- and two-qubit gates required for quantum computing and simulation. Si/Ge heterostructures hold various records in semiconductor spin qubit technologies [1, 2], as they provide very clean
-
, acceleration processes, and interactions with Mercury's surface and exosphere. A key emphasis will be placed on analyzing the three-dimensional distributions of the ions observed by the Mass Spectrum Analyzer
-
energy consumption. The demonstration of high-power energy recovery (exceeding 1 MW), particularly for high currents, remains a major challenge. It requires detailed simulations of beam dynamics o study
-
benjamin.devauchelle@pasteur.fr in Cc. The candidate should have a PhD in Human Genetics and the following skills: Strong interest in the field of genetics, neurobiology and psychiatry. Computer skills: strong level in
-
the performance and sensitivity of a future space mission for cosmology. The candidate will be required to simulate the performance of a specific instrument using Python code in order to predict the sensitivity
-
Name’.” A copy of the doctoral degree certificate or assimilated certification of completion of your doctorate Copies of official valid English language certificates (Cambridge FCE or equivalent for non
-
. Experience with numerical simulations, effective field theories, or axion phenomenology is highly desirable. Beyond technical excellence, we seek a collaborative scientist committed to reproducible research
-
predictions against simulated datasets, forecast expected constraints from Euclid and SKAO, and ultimately analyze the Euclid spectroscopic galaxy sample in its second data release. Collaboration Framework and
-
collaborators. The activities will include: • Electromagnetic modeling and numerical simulations (e.g., FDTD, FEM) • Design of metasurface architectures based on dielectric materials available at CRHEA
-
project seeks to quantify the atmospheric processing and fate of radioactive iodine, enabling to better assess impacts on health and the environment following nuclear accidents or past nuclear tests