2019
DOI: 10.1088/1367-2630/ab4454
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Laser-driven acceleration of quasi-monoenergetic, near-collimated titanium ions via a transparency-enhanced acceleration scheme

Abstract: Laser-driven ion acceleration has been an active research area in the past two decades with the prospects of designing novel and compact ion accelerators. Many potential applications in science and industry require high-quality, energetic ion beams with low divergence and narrow energy spread. Intense laser ion acceleration research strives to meet these challenges and may provide high charge state beams, with some successes for carbon and lighter ions. Here we demonstrate the generation of well collimated, qu… Show more

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Cited by 6 publications
(3 citation statements)
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“…This study is of particular relevance to the previous work of Li et al [67], which studied titanium foils irradiated by a 650 fs laser pulse length. The authors used nearidentical parameters to our longer pulse case studied here (a 0 = 20.82, τ FWHM = 650 fs), and assumed field ionization was the sole ionization mechanism.…”
Section: Discussionsupporting
confidence: 51%
“…This study is of particular relevance to the previous work of Li et al [67], which studied titanium foils irradiated by a 650 fs laser pulse length. The authors used nearidentical parameters to our longer pulse case studied here (a 0 = 20.82, τ FWHM = 650 fs), and assumed field ionization was the sole ionization mechanism.…”
Section: Discussionsupporting
confidence: 51%
“…However, thin (e.g. micrometric) converters usually undergo strong ionization [98]; hence, PIC simulations should more aptly simulate such scenarios. A complete model should adaptively comprise the effect of screening in the cross-section according to the charge state of ions.…”
Section: Discussionmentioning
confidence: 99%
“…Another important point to be noted here is that majority of the reported studies are mainly focussed on lighter ions and, in comparison, studies of heavy-ion acceleration are rare. It is important to note here that recent experimental reports [18,19] suggest heavy ion acceleration using high-contrast, ultra-high intensity laser pulses with ultra-thin (10 -250 nm) metal foils. These results are explained on the basis of coulombic interactions during the expansion phase.…”
Section: Introductionmentioning
confidence: 93%