Double in-line plasma-mirror-based contrast enhanced laser-ion acceleration at the Centre for Advanced Laser Applications

Valeriu Scutelnic; Martin Speicher; Katherine Kokmanian; Anja Schuster; Bruno Gonzalez-Izquierdo; Vahe Shirvanyan; Jens Hartmann; Marius Schollmeier; Georg Korn; Felix Balling; Sonia Gerlach; Alexander Prasselsperger; Leonard Doyle; Florian Schweiger; Georg Schilling; Andreas Münzer; Jörg Schreiber; Sven Steinke

Double in-line plasma-mirror-based contrast enhanced laser-ion acceleration at the Centre for Advanced Laser Applications

ORAL

Abstract

Temporal laser contrast plays a vital role in laser-based fusion concepts, as for example the one recently proposed by Marvel Fusion (Ruhl and Korn, arXiv:2202.03170v5, 2022). We have demonstrated for the first time an in-line Double Plasma Mirror (DPM) setup at the Laser-driven ION (LION) beamline of the Centre for Advanced Laser Applications (CALA). This set-up yielded significant enhancement in laser contrast with as little as 20% losses.

Reflectance measurements yielded a contrast enhancement of 10^2 and 10^4 for uncoated and AR-coated substrates, respectively. We investigated the maximum kinetic proton energy, transverse proton beam profiles and laser-to-ion conversion efficiency.

Without plasma mirrors the maximum achieved kinetic proton energies along target normal diminished with decreasing target thickness observing no protons when irradiating 10 nm thin foils. The addition of plasma mirrors yielded increased particle numbers and a proton signal for the entire range of target thicknesses. With uncoated substrates, kinetic proton energies peaked at a target thickness of 25 nm. With coated substrates we see increasing kinetic energies towards thinner targets.

Oct. 18, 2022, 7:12 PM – Oct. 18, 2022, 7:24 PM

Presenters

Valeriu Scutelnic

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion

Authors

Valeriu Scutelnic

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion
Martin Speicher

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany
Katherine Kokmanian

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany
Anja Schuster

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion
Bruno Gonzalez-Izquierdo

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion
Vahe Shirvanyan

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion GmbH
Jens Hartmann

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany
Marius Schollmeier

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion GmbH, Marvel Fusion
Georg Korn

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion GmbH, Marvel Fusion
Felix Balling

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Sonia Gerlach

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Alexander Prasselsperger

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Leonard Doyle

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Florian Schweiger

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Georg Schilling

Ludwig-Maximilians-Universität München, Chair of Experimental Physics – Laser Physics, Am Coulombwall 1, 85748 Garching, Germany
Andreas Münzer

Ludwig-Maximilians-Universität München, Chair of Experimental Physics – Laser Physics, Am Coulombwall 1, 85748 Garching, Germany
Jörg Schreiber

Ludwig-Maximilians-Universität München, Department for Medical Physics, Am Coulombwall 1, 85748 Garching, Germany
Sven Steinke

Marvel Fusion GmbH, Blumenstraße 28, 80331 Munich, Germany, Marvel Fusion GmbH, Marvel Fusion