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Benjamin DELSOL

GRENOBLE

Electionseuropéennes 2024

RETROUVEZ GRATUITEMENTLe résultat des européennes à Grenoble ainsi que le résultat des européennes dans l'Isère.

En résumé

Mes compétences :
Arduino
CLEAN ROOM TECHNOLOGIES
Épitaxie
Diffraction des rayons X
Management
XPS
Microsoft office
LEED
TEM
STM
Simulation numérique
Physique
Image processing
AFM
Électronique
Latex
Nanotechnologies
Python
Linux
Mathématiques
Entrepreneur
SEM
Science des matériaux
Transferts Thermiques
Couche mince
Modélisation 3d
Physique Quantique
RHEED
Analyse de données
Ultravide
Cryogénie

Entreprises

  • HAUTIER IP - French Patent Attorney

    2017 - maintenant

  • HAUTIER IP - Trainee Patent Attorney

    2014 - 2017

  • Institut Néel CNRS / Laboratoire SIMAP - Etudiant en Thèse

    2010 - 2015 In electronic devices, it is expected that the quantum limit will soon be reached with decreasing system size. Therefore, manipulating quantum information appears as a new challenge. Solid state Qubits based on superconducting Josephson junction are promising systems which take advantage of microelectronics technology. However, decoherence time of the quantum states is still a limiting factor. This has been generally ascribed to the poor crystallographic quality of the materials used so far (crystallographic defects, impurities). The Molecular Beam Epitaxy (MBE) technique may be used to grow rhenium (Re) films of high quality on sapphire substrates in an Ultra High Vacuum (UHV) environment. So far, the misfit between Re and sapphire is low enough to permit the growth of a single crystal Aluminium Oxide thin film on top of the Re layer. In order to improve the crystallographic quality of the Re film, some simulations and several characterizations techniques have been used. Then, the superconducting properties of Rhenium films have been studied at Ultra Low Temperature in a dilution fridge in order to compare with their crystallographic qualities. Finally, coplanar resonators based on Re films have been studied.

    Detailed achievements:
    - Numerical simulations
    - Clean room processing
    - Ultra High Vacuum Engineering
    - Molecular Beam Epitaxy
    - In situ thin film characterizations techniques
    - X-Ray diffraction
    - Scanning Tunnelling Microscopy
    - Atomic Force Microscopy
    - Scanning Electron Microscopy
    - Transmission Electron Microscopy
    - Cryogenics Engineering
    - Nanoelectronics circuit designs and simulations
    - Micro-Wave Engineering

  • Laboratoire SIMAP - Stage de 6 mois

    2010 - 2010 Molecular Beam Epitaxy of Aluminium and Rhenium thin films.

    Detailed achievements:
    - Numerical simulations
    - Ultra High Vacuum Engineering
    - Molecular Beam Epitaxy (MBE)
    - Reflection High Energy Electron Diffraction (RHEED)
    - Low Energy Electron Diffraction (LEED)
    - X-Ray Photoelectrons Spectroscopy (XPS)
    - Auger Electron Spectroscopy (AES)
    - Scanning Tunnelling Microscopy (STM)
    - Atomic Force Microscopy (AFM)
    - X-Ray diffraction
    - 3D crystal structures visualisation by augmented reality

  • Angström Laboratory - Stage de 4 mois

    2009 - 2009 Indium Tin Oxide thin films for smart windows applications.

    Detailed achievements:
    - Sputtering Engineering
    - Electro-chromics devices
    - Electro-chemistry measurements
    - Optical spectroscopy measurements
    - Atomic force microscopy
    - Scanning electron microscopy

  • Institut de Minéralogie de Paris et de la Matière Condensée (IMPMC) - Stage de 7 mois

    2008 - 2008 Synthesis, characterization and simulations of an Iron Nano Oxide.

    Detailed achievements:
    - Chemistry Engineering
    - X-Ray diffraction
    - Ab-initio simulation

  • Astotel - Réceptioniste

    Paris 2007 - 2009 Receptionist in 3 stars Hotels 3 months per year.

    Detailed achievements:
    - Employees management:
    - Training
    - Leadership
    - Financial and Administration management
    - Reception desk

Formations

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