Sandrine DOBOSZ DUFRENOY

Position

Permanent researcher at CEA- Saclay

Professional skills

2009-up to now

CEA-Saclay
Permanent researcher in charge of “electron acceleration” thematic in the team “Physique à Haute Intensité”

2000-2008

CEA-Saclay
Permanent researcher in charge of ” Diagnostics of dense plasmas” thematic in the team ‘Physique à Haute Intensité”

1999

University of Colchester – Queen’s University of Belfast
Post doctoral position in charge of the study of a “Four Wave sum difference mixing in plasma” scheme for XUV laser generation (VULCAN – laser – RAL )

CV

1998

PhD at CEA-Saclay (Supervisor: M. Schmidt)
Subject: Intense laser interaction with rare gas clusters – Mention: très honorable avec les félicitations écrites du jury

1995

DEA de “Fondements et Applications des Techniques Laser” à l’Université Paris XIII. Mention assez bien

1994

Licence et Maîtrise de Physique mention Physique et applications à l’Université Paris XIII. Mention assez bien.

1992

DEUG A mention SSM, option Mathématiques-Physique à l’Université Paris XIII

Most representatives publications

  • Space- and time-resolved observation of extreme laser frequency upshifting during ultrafast-ionization”, A. Giulietti, A André, S. Dobosz Dufrénoy et al., Phys. of Plasmas, 20, 82307
  • “Internal frequency conversion extreme ultraviolet interferometer using mutual coherence properties of two high-order-harmonic sources”, S. Dobosz et al, .Rev. Scient. Inst. 80, 113102
  • “Intense gamma-Ray Source in the Giant-Dipole-Resonance Range Driven by 10-TW Laser Pulses”, A. Giulietti, N. Bourgeois, T. Ceccotti, S. Dobosz et al, Phys. Rev. Lett. , 101, 105002
  • “Probing Hot and Dense Laser-Induced Plasmas with Ultrafast XUV Pulses”, S. Dobosz et al., Phys. Rev. Lett., 95, 025001
  • “High-order harmonic generation by nonlinear reflection of an intense high-contrast laser pulse on a plasma”, Monot P., Doumy G., Dobosz S.,et al. Optics Letters 29, 893

Field of interest and competences

  • Ultra-intense laser-matter interaction
  • Laser-plasma acceleration – relativistic electron source – betatron radiation
  • XUV interferometry
  • Dense plasmas diagnostics