Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils

Philip Martin; Hamad Ahmed; Domenico Doria; Mirela Cerchez; Fiona Hanton; Deborah Gwynne; Aaron Alejo; Javier Fernández-Tobias; James Green; Andrea Macchi; David Maclellan; Paul McKenna; Jesús Álvarez Ruiz; Marco Swantusch; Oswald Willi; Shuhua Zhai; Marco Borghesi; Satyabrata Kar

doi:10.1038/s42005-023-01425-4

Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils

Philip Martin, Hamad Ahmed, Domenico Doria, Mirela Cerchez, Fiona Hanton, Deborah Gwynne, Aaron Alejo, Javier Fernández-Tobias, James Green, Andrea Macchi, David Maclellan, Paul McKenna, Jesús Álvarez Ruiz, Marco Swantusch, Oswald Willi, Shuhua Zhai, Marco Borghesi, Satyabrata Kar

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Abstract

Interaction of intense lasers with nm thick targets provides an attractive regime for the acceleration of ions of all types. Acceleration of heavy ions however is undermined in the presence of low charge contaminant species due to their higher charge-to-mass ratio. Here we show a narrow-band acceleration of very heavy Au ions from ∼15 nm Au foils driven by a sub-Petawatt laser, with spectral peaks of 1.5 ± 0.5 GeV at fluxes on the order of 10¹² particles per steradian. 3D and 2D particle-in-cell simulations show a complex interplay between different acceleration mechanisms at different stages of the interaction, suggesting the spectrally peaked Au ion bunches stem from strong radiation pressure acceleration on a heavy-ion dominant plasma in the moments just before transparency, followed by an efficient acceleration due to transparency-enhanced mechanisms.

Original language	English
Article number	3
Number of pages	9
Journal	Communications Physics
Volume	7
DOIs	https://doi.org/10.1038/s42005-023-01425-4
Publication status	Published - 3 Jan 2024

Keywords

gold ions
narrow-band acceleration
GeV energies
ultra-thin foils

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10.1038/s42005-023-01425-4Licence: CC BY 4.0

Martin-etal-CP-2023-Narrow-band-acceleration-of-gold-ions-to-GeV-energies-from-ultra-thin-foilsFinal published version, 1.91 MBLicence: CC BY 4.0

Nonlinear Optics and Dynamics of Relativistically Transparent Plasmas
McKenna, P. (Principal Investigator), Gray, R. (Co-investigator) & King, M. (Research Co-investigator)
EPSRC (Engineering and Physical Sciences Research Council)
1/11/17 → 31/10/22
Project: Research
Advanced laser-ion acceleration strategies towards next generation healthcare
McKenna, P. (Principal Investigator)
EPSRC (Engineering and Physical Sciences Research Council)
21/05/13 → 20/05/19
Project: Research

Cite this

Martin, P., Ahmed, H., Doria, D., Cerchez, M., Hanton, F., Gwynne, D., Alejo, A., Fernández-Tobias, J., Green, J., Macchi, A., Maclellan, D., McKenna, P., Ruiz, J. Á., Swantusch, M., Willi, O., Zhai, S., Borghesi, M., & Kar, S. (2024). Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils. Communications Physics, 7, Article 3. https://doi.org/10.1038/s42005-023-01425-4

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title = "Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils",

abstract = "Interaction of intense lasers with nm thick targets provides an attractive regime for the acceleration of ions of all types. Acceleration of heavy ions however is undermined in the presence of low charge contaminant species due to their higher charge-to-mass ratio. Here we show a narrow-band acceleration of very heavy Au ions from ∼15 nm Au foils driven by a sub-Petawatt laser, with spectral peaks of 1.5 ± 0.5 GeV at fluxes on the order of 1012 particles per steradian. 3D and 2D particle-in-cell simulations show a complex interplay between different acceleration mechanisms at different stages of the interaction, suggesting the spectrally peaked Au ion bunches stem from strong radiation pressure acceleration on a heavy-ion dominant plasma in the moments just before transparency, followed by an efficient acceleration due to transparency-enhanced mechanisms.",

keywords = "gold ions, narrow-band acceleration, GeV energies, ultra-thin foils",

author = "Philip Martin and Hamad Ahmed and Domenico Doria and Mirela Cerchez and Fiona Hanton and Deborah Gwynne and Aaron Alejo and Javier Fern{\'a}ndez-Tobias and James Green and Andrea Macchi and David Maclellan and Paul McKenna and Ruiz, {Jes{\'u}s {\'A}lvarez} and Marco Swantusch and Oswald Willi and Shuhua Zhai and Marco Borghesi and Satyabrata Kar",

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doi = "10.1038/s42005-023-01425-4",

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Martin, P, Ahmed, H, Doria, D, Cerchez, M, Hanton, F, Gwynne, D, Alejo, A, Fernández-Tobias, J, Green, J, Macchi, A, Maclellan, D, McKenna, P, Ruiz, JÁ, Swantusch, M, Willi, O, Zhai, S, Borghesi, M & Kar, S 2024, 'Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils', Communications Physics, vol. 7, 3. https://doi.org/10.1038/s42005-023-01425-4

TY - JOUR

T1 - Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils

AU - Martin, Philip

AU - Ahmed, Hamad

AU - Doria, Domenico

AU - Cerchez, Mirela

AU - Hanton, Fiona

AU - Gwynne, Deborah

AU - Alejo, Aaron

AU - Fernández-Tobias, Javier

AU - Green, James

AU - Macchi, Andrea

AU - Maclellan, David

AU - McKenna, Paul

AU - Ruiz, Jesús Álvarez

AU - Swantusch, Marco

AU - Willi, Oswald

AU - Zhai, Shuhua

AU - Borghesi, Marco

AU - Kar, Satyabrata

PY - 2024/1/3

Y1 - 2024/1/3

N2 - Interaction of intense lasers with nm thick targets provides an attractive regime for the acceleration of ions of all types. Acceleration of heavy ions however is undermined in the presence of low charge contaminant species due to their higher charge-to-mass ratio. Here we show a narrow-band acceleration of very heavy Au ions from ∼15 nm Au foils driven by a sub-Petawatt laser, with spectral peaks of 1.5 ± 0.5 GeV at fluxes on the order of 1012 particles per steradian. 3D and 2D particle-in-cell simulations show a complex interplay between different acceleration mechanisms at different stages of the interaction, suggesting the spectrally peaked Au ion bunches stem from strong radiation pressure acceleration on a heavy-ion dominant plasma in the moments just before transparency, followed by an efficient acceleration due to transparency-enhanced mechanisms.

AB - Interaction of intense lasers with nm thick targets provides an attractive regime for the acceleration of ions of all types. Acceleration of heavy ions however is undermined in the presence of low charge contaminant species due to their higher charge-to-mass ratio. Here we show a narrow-band acceleration of very heavy Au ions from ∼15 nm Au foils driven by a sub-Petawatt laser, with spectral peaks of 1.5 ± 0.5 GeV at fluxes on the order of 1012 particles per steradian. 3D and 2D particle-in-cell simulations show a complex interplay between different acceleration mechanisms at different stages of the interaction, suggesting the spectrally peaked Au ion bunches stem from strong radiation pressure acceleration on a heavy-ion dominant plasma in the moments just before transparency, followed by an efficient acceleration due to transparency-enhanced mechanisms.

KW - gold ions

KW - narrow-band acceleration

KW - GeV energies

KW - ultra-thin foils

U2 - 10.1038/s42005-023-01425-4

DO - 10.1038/s42005-023-01425-4

M3 - Article

SN - 2399-3650

VL - 7

JO - Communications Physics

JF - Communications Physics

M1 - 3

ER -

Narrow-band acceleration of gold ions to GeV energies from ultra-thin foils

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Projects

Nonlinear Optics and Dynamics of Relativistically Transparent Plasmas

Advanced laser-ion acceleration strategies towards next generation healthcare

Cite this