AUFFEVES Alexia

E-mail: alexia.auffeves@neel.cnrs.fr
Phone: +33(0)4 56 38 70 11 k

Postal address:
Institut Néel, CNRS/UGA
25, avenue des Martyrs - BP 166
Fr-38042 Grenoble Cedex 9

Research activities:

quantum optics, quantum open systems, quantum thermodynamics, foundations of quantum mechanics, theory, modeling

My activity is theoretical and involves quantum optics, solid state physics, quantum thermodynamics and quantum foundations. It has four main motivations : 1. import the concepts of quantum optics, originally established in the framework of atomic physics, in the field of solid-state to investigate new physics and potential applications 2. import the concepts of thermodynamics in the framework of quantum physics, to develop new concepts and design realistic experiments 3. develop innovative devices for nanophotonics, integrated quantum computation, and quantum thermodynamics 4. develop the interface between quantum physics and philosophy. These goals are pursued in close collaboration with experimentalists, within a network of national and international collaborations.

Students

  • Bogdan Reznychenko (PhD 2015-2018)
  • Cyril Elouard (PhD 2014-2017)
  • David Herrera-Marti (Post-doctoral fellow 2015-2017)
  • Thomas Grange (Post-doctoral fellow 2013-2016)
  • Gaston Hornecker (PhD 2013-2016)

Former students

  • Giovanni Vacanti (Postoral fellow 2014-2015)
  • Daniel Valente (PhD funded by the Nanoscience Fondation of Grenoble, 2009-2012)
  • Igor Diniz (PhD funded by Brazilian Research Institute CAPES, 2009-2012)
  • Stefano Portolan (EU funded post-doctoral fellow, 2009-2012)

Duties

Publication list

Quantum coherence - CQ

Quantum coherence - CQ

Revealing quantum phenomena in electronic nano-circuits
Helium : from fundamental to applications - HELFA

Helium : from fundamental to applications - HELFA

Helium as model system, hydrodynamic and turbulence, space and astrophysics, instrumentation and cryogenic development, kinetic inductance detectors.
Magnetism and Superconductivity - MagSup

Magnetism and Superconductivity - MagSup

Team Magnetism and Superconductivity at Institut NEEL - Systems involving charge, spin or lattice degrees of freedom.
Optics and materials - OPTIMA

Optics and materials - OPTIMA

a complete chain of competences that goes from the design and elaboration of new materials to the study of nonlinear optical properties and plasmonics
Materials, Radiations, Structure - MRS

Materials, Radiations, Structure - MRS

Understanding of the physico-chemical properties of complex materials based on the precise description of their structure
Micro and NanoMagnetism - MNM

Micro and NanoMagnetism - MNM

Complementary expertise in fabrication, characterisation, and simulations for studies in nanomagnetism with applications in spin electronics and micro-systems
Quantum Nano-Electronics and Spectroscopy - QNES

Quantum Nano-Electronics and Spectroscopy - QNES

Electron transport and local spectroscopy of quantum structures
Nano-Optics and Forces - NOF

Nano-Optics and Forces - NOF

Nano - optics and forces
Nanophysics and Semiconductors - NPSC

Nanophysics and Semiconductors - NPSC

Growth of III-V and II-VI semiconductor nanostructures and their physics in search of new functions for potential applications.
Nanospintronics and Molecular Transport - NanoSpin

Nanospintronics and Molecular Transport - NanoSpin

Studying magnetism at the nanoscale, where classical and quantum properties can be combined and used for molecular quantum spintronics
Wide bandgap semiconductors - SC2G

Wide bandgap semiconductors - SC2G

Physics of diamond and other wide bandgap semiconductors towards applications in electronics and biotechnologies
Surfaces, Interfaces and Nanostructures - SIN

Surfaces, Interfaces and Nanostructures - SIN

Experimental and theoretical studies of low dimensional systems
Hybrid systems at low dimensions - HYBRID

Hybrid systems at low dimensions - HYBRID

Electronic, optical, vibrational, mechanical properties, as well as their interplay at the nanoscale, of novel hybrid systems (nanotubes, graphene, two-dimensional and functionalized materials) which are developed by the group .
Condensed Matter Theory - TMC

Condensed Matter Theory - TMC

Novel physical phenomena in materials and model systems.
Thermodynamics and Biophysics of small systems - TPS

Thermodynamics and Biophysics of small systems - TPS

Ultra-sensitive instrumentation for electrical and thermal measurements: from biophysics to low temperature condensed matter physics.
Theory of Quantum Circuits - ThQC

Theory of Quantum Circuits - ThQC

Theoretical studies of electronic transport in nanometer-scale devices showing remarkable quantum effects.
Ultra-low temperatures - UBT

Ultra-low temperatures - UBT

Quantum physics at the ultra-low temperature frontier.

© Institut Néel 2012 l Webdesign chrisgaillard.com l Powered by spip l Last update lundi 26 novembre 2018 l