
Angelos TriantafyllidisÉcole Polytechnique · LULI Laboratoire Pour l'Utilisation des Lasers Intenses
Angelos Triantafyllidis
PhD Student
PhD student at LULI, École Polytechnique
About
2
Publications
109
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Introduction
I'm a PhD student at LULI at École Polytechnique on the subject of heat transport in laser-produced magnetized plasmas and magnetized blast waves under the supervision of Bruno Albertazzi and Michel Koenig.
I got my Master's degree in Institut Polytechnique de Paris in "Physics of Plasmas and Fusion".
I am graduate of the National and Kapodistrian University of Athens, Department of Physics.
I participated in a project concerning the KM3NeT infrastructure at NCSR "DEMOKRITOS" for 10 months.
Additional affiliations
April 2022 - December 2020
April 2022 - September 2022
Position
- Master's Student
Description
- As part of my M2 "Physics of Plasmas and Fusion", I participated in an internship at LULI (Laboratoire pour l'Utilisation des Lasers Intenses) on laboratory astrophysics under the supervision of B. Albertazzi and M. Koenig. The topic of this internship was based on a detailed study of the mechanisms of heat transport in magnetized plasmas which are fundamental in particular in the context of inertial confinement fusion (ICF) and astrophysics where magnetic fields are omnipresent.
April 2015 - September 2020
Position
- Student
Description
- Gamma-ray bursts are the brightest sources of gamma rays in the Universe and the physical processes that create them are unknown even today. In the present thesis, the model that is called upon to interpret them is based on hadronic interactions. A. Mastichiadis' and J. G. Kirk's numerical code shows that when the proton energy density exceeds some critical value, a non-linear network of loops starts operating and causes an efficient transfer of the proton energy into photons, electron-positron
Publications
Publications (2)
We experimentally investigate the evolution and dynamics of laser-produced collisional blast waves (BW) under the influence of a perpendicular magnetic field up to 20 T. We show that an external magnetic field causes the BW to diverge from the Taylor–Sedov solution while also impacting its structural morphology. We notably explore the significance...
Single-shot X-ray phase-contrast imaging is used to take high-resolution images of laser-driven strong shock waves. Employing a two-grating Talbot interferometer, we successfully acquire standard absorption, differential phase-contrast, and dark-field images of the shocked target. Good agreement is demonstrated between experimental data and the res...