47th Conference on Plasma Physics –  Satellite Meeting
28th – 29th June 2021, Online

High Field laser-plasma interaction (HIFI)
& Laser-driven particle and radiation sources for application (LASA)

CONTACT: comunicacion@clpu.es

Click on the name to download the abstract
Click on the title to download the poster files (Password is required)

MONDAY, 28th June 2021 (GMT+2)
HIFI LASA

PS01 – María Ángeles Pérez García
Ultraintense magnetic fields and magnetized vacuum properties

PS01 – Jurjen P. Couperus Cabadag
Gas-dynamic density down ramp injection in a beam-driven plasma wakefield accelerator

PS02 – Artem Martynenko
Optimization of a laser plasma-based X-ray source according to warm dense matter absorption spectroscopy requirements

PS02 – Sandeep Kumar
Terahertz generation by Cross Focused cosh-gaussian laser-beams in underdense plasma

PS03 – Sita Sundar
Velocity shear driven instability in relativistic EMHD regime

PS03 – Brian Edward Marré
Insitu atomic physics for PIC

PS04 – José M. Rojas Artuñedo
Hydrodynamic simulations of laser-generated plasmas with MULTI-fs code

PS04 – Bertrand Martínez
Multi-GeV direct laser acceleration of positrons in a plasma channel 

PS05 – Óscar Löfgren Amaro
Simulating extreme plasma physics on a quantum computer

PS05 – Marvin Reimold
On-shot dosimetry and beam monitoring for radiobiology studies on volumetric in-vivo samples with laser-accelerated proton beams 

PS06 -Alexander Samsonov
Advances in the asymptotic description of the electron motion in the strongly radiation-dominated regime

PS06 – Angela Corvino
Miniscidom: a scintillator-based tomograph for the reconstruction of mm-scale dose distribution

PS07 – Lennart Gaus
Probing laser-solid interactions with small-angle X-ray scattering

PS07 – Vojtech Horny
High flux neutron sources from protons accelerated by a 1-PW-class laser
  PS08 – Pengjie Wang
Super-heavy ions acceleration driven by ultrashort laser pulses at ultrahigh intensity
  PS09 – Vincent Lelasseux
Characterization of neutron beams generated in high-intensity interactions for nuclear physics experiments
  PS10 – Muhammad Ahsan Mahmood
Onsite calibration of radiochromic film using laser-accelerated protons
  PS11 – Juan Peñas
Complete characterization of the energy spectra of laser-accelerated protons for the production of radioisotopes used in PET
  PS012 – Georgiana Giubega
Laser-driven electron acceleration for FLASH radiotherapy
TUESDAY, 29th June 2021 (GMT+2)
PS08 – Gemma Costa
Characterization and optimization of targets for plasma wakefield acceleration at SPARC_LAB 
PS013 – Michael Seimetz
Experimental setup for irradiation of cell cultures at L2A2 
PS09 – Rosa Romero
Single-shot d-scan technique for the temporal characterization of high-power ultrafast laser systems  
PS014 – Michael Ehret
Ion acceleration by ultrashort laser pulses from a near-critical-density gas jet and perspectives to micro-compression 
 PS10 – Martin Jinka
Reaching high laser intensity by a radiating electron 
PS015 – Mahdi Habibi
Magnetic suppression of Bremsstrahlung emission in the relativistic transparency regime 
PS11 – Martin Matys
Plasma shutter for improved ion acceleration by ultraintense laser pulses 
PS016 – Paula S. Kleij
Ultra-energetic electron bunches from surface plasma wave excitation by laser with wavefront rotation in the UHI
PS12 – Daira Radouane
Application of laser in an optical assembly for calculation of deformations following the X and Y directions 
PS017 – Luca Labate
Toward an effective use of laser-driven very high energy electrons for radiotherapy: recent experiments and simulations at INO-C
  PS018 – Ankita Bhagawati
Laser accelerated energetic protons from a non-uniform density plasmasphere
  PS019 – Denys Bondar
Transition of laser-driven wakefield acceleration to self-injected electron-driven wakefield (…)
  PS021 – Camilo Ruiz
A high repetition rate plasma mirror for improvement of the contrast of a high power laser
  PS022 – Zsolt Kovacs
Concept for a novel THz-driven narrow energy spread relativistic electron source
  PS023 – Donaldi Mancelli
Shock Hugoniot data for water up to 5 Mbar obtained with quartz standard at high-energy laser facilities