Two-photon polymerization 3D printed microstructures as a platform for high-energy laser-driven ion accelerators

S. Ya. Tochitsky; N. Lemos; R. A. Simpson; E.S. Grace; A. Pak; T. Ma; F. Fiuza; D.J. Haberberger; A. Haid; K. Gerbsch; C. Joshi

doi:10.1364/HILAS.2024.HTh2B.3

High-Brightness Sources and Light-Driven Interactions Congress
Technical Digest Series (Optica Publishing Group, 2024),
paper HTh2B.3
•https://doi.org/10.1364/HILAS.2024.HTh2B.3

Two-photon polymerization 3D printed microstructures as a platform for high-energy laser-driven ion accelerators

S. Ya. Tochitsky, N. Lemos, R. A. Simpson, E.S. Grace, A. Pak, T. Ma, F. Fiuza, D.J. Haberberger, A. Haid, K. Gerbsch, and C. Joshi

High Intensity Lasers and High Field Phenomena 2024

Vienna Austria
12–14 March 2024
ISBN: 978-1-957171-35-7

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High-field Science, Methods, and Theory (HTh2B)

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S. Y. Tochitsky, N. Lemos, R. A. Simpson, E. S. Grace, A. Pak, T. Ma, F. Fiuza, D. J. Haberberger, A. Haid, K. Gerbsch, and C. Joshi, "Two-photon polymerization 3D printed microstructures as a platform for high-energy laser-driven ion accelerators," in High-Brightness Sources and Light-Driven Interactions Congress, Technical Digest Series (Optica Publishing Group, 2024), paper HTh2B.3.

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Abstract

We present the results on ion acceleration in 3D printed wire structures irradiated by PW laser pulses. Above 100 MeV proton and 500 MeV carbon beams are reported in 10-20 μm thick microstructures.

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