Research output per year
Research output per year
Description
Dataset underpinning the results presented in the article titled, "Dynamics of guided post-acceleration of protons in a laser-driven travelling-field accelerator" published in Plasma Physics and Controlled Fusion (2020)
Abstract of the paper:
By directing the laser-driven electromagnetic pulses along a helical path, one can achieve a travelling-field accelerator arrangement for simultaneous beam shaping and re-acceleration of laser-accelerated protons. The dynamics of guided acceleration of the transiting protons was studied by varying the length of the helical coil. Experimental data shows that the protons co-moving with the field region exhibit stronger focussing while increasing the coil length, with an increase of kinetic energy due to simultaneous post-acceleration. The net energy gain for a coil of constant pitch however saturates eventually when the post-accelerated protons overtakes the accelerating field region in due course. 3D particle tracing simulation underpins the dynamics of beam transport inside the coil, which highlights the requirement for a variable pitch coil geometry in order to sustain the post-acceleration over an extended coil.
Abstract of the paper:
By directing the laser-driven electromagnetic pulses along a helical path, one can achieve a travelling-field accelerator arrangement for simultaneous beam shaping and re-acceleration of laser-accelerated protons. The dynamics of guided acceleration of the transiting protons was studied by varying the length of the helical coil. Experimental data shows that the protons co-moving with the field region exhibit stronger focussing while increasing the coil length, with an increase of kinetic energy due to simultaneous post-acceleration. The net energy gain for a coil of constant pitch however saturates eventually when the post-accelerated protons overtakes the accelerating field region in due course. 3D particle tracing simulation underpins the dynamics of beam transport inside the coil, which highlights the requirement for a variable pitch coil geometry in order to sustain the post-acceleration over an extended coil.
| Date made available | 2020 |
|---|---|
| Publisher | Queen's University Belfast |
| Date of data production | 2014 - 2020 |
Research output
- 1 Article
-
Dynamics of guided post-acceleration of protons in a laser-driven travelling-field accelerator
Hadjisolomou, P., Ahmed, H., Prasad, R., Cerchez, M., Brauckmann, S., Aurand, B., Schroer, A. M., Swantusch, M., Willi, O., Borghesi, M. & Kar, S., 12 Oct 2020, In: Plasma Physics and Controlled Fusion. 62, 11, 12 p., 115023.Research output: Contribution to journal › Article › peer-review
Open AccessFile1 Citation (Scopus)37 Downloads (Pure)
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R1696CPP: Nanorad - Ultrafast, Nano-Scale Material Response to Radiation and Applications of Ultrafast Radiation Sources
Dromey, B., Borghesi, M., Currell, F., Kar, S., Kohanoff, J., Reville, B., Riley, D., Sarri, G. & Yeung, M.
08/02/2017 → …
Project: Research
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R1323CPP: Novel Techniques for control & Optimisation of Laser driven ion beams
01/08/2012 → 30/06/2015
Project: Research
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R1304CPP: Advanced laser-ion acceleration strategies towards next generation healthcare
Borghesi, M., Kar, S., Prise, K. & Zepf, M.
01/08/2012 → 20/01/2020
Project: Research