Markus Büscher scite author profile

This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years.

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Generation of polarized particle beams at relativistic laser intensities

Büscher

Hützen

et al. 2020

High Pow Laser Sci Eng

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The acceleration of polarized electrons, positrons, protons and ions in strong laser and plasma fields is a very attractive option for obtaining polarized beams in the multi-mega-electron volt range. Recently, there has been substantial progress in the understanding of the dominant mechanisms leading to high degrees of polarization, in the numerical modeling of these processes and in their experimental implementation. This review paper presents an overview on the current state of the field, and on the concepts of polarized laser–plasma accelerators and of beam polarimetry.

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Polarized proton beams from a laser-plasma accelerator

Büscher

Hützen

Engin

et al. 2019

Int. J. Mod. Phys. A

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We report on the concept of an innovative laser-driven plasma accelerator for polarized proton (or deuteron) beams with a kinetic energy up to several GeV. In order to model the motion of the particle spins in the plasmas, these have been implemented as an additional degree of freedom into the Particle-in-Cell simulation code VLPL. For the experimental realization, a polarized HCl gas-jet target is under construction, where the degree of proton polarization is determined with a Lamb-shift polarimeter. The final experiments, aiming at the first observation of a polarized particle beam from laser-generated plasmas, will be carried out at the 10 PW laser system SULF at SIOM/Shanghai.

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Markus Büscher

Precision Study of theηHe3System Using thedp→He3η
Mersmann¹,
Khoukaz²,
Büscher³
et al. 2007
Phys. Rev. Lett.
120
10
127
0
View full text Add to dashboard Cite

EuPRAXIA Conceptual Design Report

Generation of polarized particle beams at relativistic laser intensities

Polarized proton beams from a laser-plasma accelerator

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About

Markus Büscher

Precision Study of theηHe3System Using thedp→He3ηMersmann1, Khoukaz2, Büscher3 et al. 2007Phys. Rev. Lett.120101270View full textAdd to dashboardCite

EuPRAXIA Conceptual Design Report

Generation of polarized particle beams at relativistic laser intensities

Polarized proton beams from a laser-plasma accelerator

Contact Info

Product

Resources

About

Precision Study of theηHe3System Using thedp→He3η
Mersmann¹,
Khoukaz²,
Büscher³
et al. 2007
Phys. Rev. Lett.
120
10
127
0
View full text Add to dashboard Cite