Transition to light sail acceleration using ultraintense femtosecond pulses

Martin, P. and Doria, D. and Romagnani, L. and Ahmed, H. and McIlvenny, A. and Scullion, C. and Williamson, S.D.R. and Ditter, E. J. and Hicks, G. and Ettlinger, O. C. and Scott, G. G. and Symes, D. R. and Booth, N. and Sgattoni, A. and Macchi, A. and Kar, S. and McKenna, P. and Najmudin, Z. and Neely, D. and Zepf, M. and Borghesi, M.; Fajardo, M. and Westerhof, E. and Riconda, C. and Melzer, A. and Bret, A. and Dromey, B., eds. (2017) Transition to light sail acceleration using ultraintense femtosecond pulses. In: 44th EPS Conference on Plasma Physics, EPS 2017. European Physical Society (EPS), GBR. ISBN 979109638907

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Abstract

Presented are results from experimental campaigns undertaken on the Gemini laser system at the Central Laser Facility in the UK. In these experiments amorphous carbon targets ranging in thickness from 10nm to 100nm were irradiated with high contrast 40fs pulses with an intensity up to 1021 W/cm2, for both circular and linear polarisations and the resulting proton and ion spectra compared. Examining the highest energies achieved for a given polarisation and target thickness, allows to identify the transition from TNSA to LS. Observations of the optimal target thickness for ion acceleration are compared to analytical predictions from LS theory, in addition to results from Particle in Cell modelling.

ORCID iDs

Martin, P., Doria, D., Romagnani, L., Ahmed, H., McIlvenny, A., Scullion, C., Williamson, S.D.R. ORCID logoORCID: https://orcid.org/0000-0002-8457-4858, Ditter, E. J., Hicks, G., Ettlinger, O. C., Scott, G. G., Symes, D. R., Booth, N., Sgattoni, A., Macchi, A., Kar, S., McKenna, P. ORCID logoORCID: https://orcid.org/0000-0001-8061-7091, Najmudin, Z., Neely, D., Zepf, M. and Borghesi, M.; Fajardo, M., Westerhof, E., Riconda, C., Melzer, A., Bret, A. and Dromey, B.
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