Jobs

All our offers

+Filter by technology challenge

  • Cyber security : hardware and sofware
  • Energy efficiency for smart buildings, electrical mobility and industrial processes
  • Solar energy for energy transition
  • Green & decarbonated energy including bioprocesses and waste recycling
  • Additive manufacturing, new routes for saving materials
  • Support functions
  • Advanced hydrogen and fuel-cells solutions for energy transition
  • Instrumentation nucléaire et métrologie des rayonnements ionisants
  • Artificial Intelligence & data intelligence
  • New computing paradigms, including quantum
  • Emerging materials and processes for nanotechnologies and microelectronics
  • Advanced nano characterization
  • Photonics, Imaging and displays
  • Communication networks, IOT, radiofrequencies and antennas
  • Smart Energy grids
  • Numerical simulation & modelling
  • Stockage d'énergie électrochimique y compris les batteries pour la transition énergétique
  • Cyber physical systems - sensors and actuators
  • Health and environment technologies, medical devices
  • Factory of the future incl. robotics and non destructive testing

+Filter by contract type

  • Work-study contract
  • Fixed term contract
  • Permanent contract
  • phD
  • PostDoc
  • Internship

+Filter by institute

  • CEA-Leti
  • CEA-List
  • CEA en Région

+Filter by location

  • Cadarache – Aix-en-Provence
  • Grenoble
  • Paris – Saclay
  • Quimper
  • Toulouse - Labège

+Filter by Level of study

  • Level 4
  • Level 5 / Level 6
  • Level 7
  • Level 8
  • CAP/BEP
Number of results : 2
  • PostDoc Modeling of charge noise in spin qubits

    Thanks to strong partnerships between several research institutes, Grenoble is a pioneer in the development of future technologies based on spin qubits using manufacturing processes identical to those used in the silicon microelectronics industry. The spin of a qubit is often manipulated with alternating electrical (AC) signals through various spin-orbit coupling (SOC) mechanisms that couple...

    Learn more Apply

  • PostDoc Advanced reconstruction methods for cryo-electron tomography of biological samples

    Cryo-electron tomography (CET) is a powerful technique for the 3D structural analysis of biological samples in their near-native state. CET has seen remarkable advances in instrumentation in the last decade but the classical weighted back-projection (WBP) remains by far the standard CET reconstruction method. Due to radiation damage and the limited tilt range within the...

    Learn more Apply

en_USEN

Contact us

We will reply as soon as possible...