Preferential enhancement of laser-driven carbon ion acceleration from optimized nanostructured surfaces
Dalui, Malay and Wang, W.-M. and Trivikram, T. Madhu and Sarka, Subhrangshu and Tata, Sheroy and Jha, J. and Ayyub, P. and Sheng, Z. M. and Krishnamurthy, M. (2015) Preferential enhancement of laser-driven carbon ion acceleration from optimized nanostructured surfaces. Scientific Reports, 5. 11930. ISSN 2045-2322 (https://doi.org/10.1038/srep11930)
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Abstract
High-intensity ultrashort laser pulses focused on metal targets readily generate hot dense plasmas which accelerate ions efficiently and can pave way to compact table-top accelerators. Laser-driven ion acceleration studies predominantly focus on protons, which experience the maximum acceleration owing to their highest charge-to-mass ratio. The possibility of tailoring such schemes for the preferential acceleration of a particular ion species is very much desired but has hardly been explored. Here, we present an experimental demonstration of how the nanostructuring of a copper target can be optimized for enhanced acceleration of carbon ions over protons or Cu-ions. Specifically, a thin (≈0.25 μm) layer of 25-30 nm diameter Cu nanoparticles, sputter- deposited on a polished Cu-substrate, enhances the carbon ion energy almost 10-fold at a laser intensity of 1.2 x 10(18) W/cm2. However, particles smaller than 20 nm have an adverse effect on the ion acceleration. Particle-in-cell simulations provide definite pointers regarding the size of nanoparticles necessary for maximizing the ion acceleration.
ORCID iDs
Dalui, Malay, Wang, W.-M., Trivikram, T. Madhu, Sarka, Subhrangshu, Tata, Sheroy, Jha, J., Ayyub, P., Sheng, Z. M. ORCID: https://orcid.org/0000-0002-8823-9993 and Krishnamurthy, M.;-
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Item type: Article ID code: 53027 Dates: DateEvent8 July 2015Published28 April 2015AcceptedSubjects: Science > Physics Department: Faculty of Science > Physics Depositing user: Pure Administrator Date deposited: 15 May 2015 10:18 Last modified: 18 Dec 2024 01:18 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/53027