Femtosecond laser-induced damage threshold in snow micro-structured targets

Shavit, Omer; Ferber, Y.; Papeer, J.; Schleifer, E.; Botton, M.; Zigler, A.; Henis, Z.

doi:10.1017/hpl.2017.34

Cited by 7 publications

(3 citation statements)

References 35 publications

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“…In the future, the development of 10 PW, and even 100 PW, laser systems [43–46] , and target fabrication [47, 48] could lead to reaching laser intensities of the order of , which can easily accelerate the proton layer to energies of hundreds of MeV (refer to Figure 5). For example, protons can be generated by a , 250 J laser ( energy in a focal spot (FWHM), corresponding to a laser intensity of ) irradiating the multilayer foil (areal density ).…”

Section: Discussionmentioning

confidence: 99%

Monoenergetic proton beam accelerated by single reflection mechanism only during hole-boring stage

Wang

Jiang

et al. 2019

High Pow Laser Sci Eng

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Multidimensional instabilities always develop with time during the process of radiation pressure acceleration, and are detrimental to the generation of monoenergetic proton beams. In this paper, a sharp-front laser is proposed to irradiate a triple-layer target (the proton layer is set between two carbon ion layers) and studied in theory and simulations. It is found that the thin proton layer can be accelerated once to hundreds of MeV with monoenergetic spectra only during the hole-boring (HB) stage. The carbon ions move behind the proton layer in the light-sail (LS) stage, which can shield any further interaction between the rear part of the laser and the proton layer. In this way, proton beam instabilities can be reduced to a certain extent during the entire acceleration process. It is hoped such a mechanism can provide a feasible way to improve the beam quality for proton therapy and other applications.

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Section: Discussionmentioning

confidence: 99%

Monoenergetic proton beam accelerated by single reflection mechanism only during hole-boring stage

Wang

Jiang

et al. 2019

High Pow Laser Sci Eng

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“…An optical guiding scheme is proposed and tested to conquer the limited length of the interaction that must be solved in high-energy laser wakefield acceleration. In particular, novel targets such as snow clusters [51] are investigated to enhance the absorption of the laser energy in the target to produce a large number of X-rays [52].…”

Section: Racah Institute Of Physics Hebrew University (Hu)mentioning

confidence: 99%

Facilities in Asia for future accelerator development

Kobayashi

Hosokai

Kim³

et al. 2022

J. Inst.

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We introduce and review available and active research facilities that involve novel acceleration concepts in Asia. Most of the facilities equip with high-peak-power (>10 TW) lasers with tens of femtosecond duration for laser wakefield acceleration. The activities in Asia are growing and several problems on the realization of high energy frontier accelerators would be accessed through the existing facilities.

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“…The artificially engineering metamaterials have been developed to realize the desired materials which are not obtained in naturally materials [1]- [4]. The effective refractive indices in metamaterials can be tunable by critically design of artificial atoms [5]- [7]. It is known that the negative refractive index metamaterials [8]- [11] and near-zero index metamaterials [12], [13] have been extensively studied in last dozen years.…”

Section: Introductionmentioning

confidence: 99%

High Refractive Index Metamaterials by Using Higher Order Modes Resonances of Hollow Cylindrical Nanostructure in Visible Region

Jing

Gan

et al. 2019

IEEE Access

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In order to design optical metamaterials to surpass the limitation of unnaturally high refractive index in visible range, we propose the nanocylinders nanostructure with hexagonal close-packed arrangement to precisely control the electric and magnetic resonances, resulting in the manipulation of the effective index of metamaterials. By drastically increasing the strong capacitive coupling between nanocylinders and decreasing the diamagnetic effect with core-shell nanostructure, the unnaturally high refractive index of designed metamaterials can be achieved to be 10.5 in visible region. The diamagnetic effect of solid nanocylinders can be significantly suppressed by using the design strategy of hollow nanocylinders with higher order mode resonances, leading to great enhancement of the effective refractive index in broadband visible region. Expanding the refractive index into an unnaturally high positive region in visible range can complete the spectrum of attainable refractive index, and the high refractive index metamaterials can provide more design flexibility for nanophotonics.INDEX TERMS Metamaterial, high refractive index.

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Femtosecond laser-induced damage threshold in snow micro-structured targets

Cited by 7 publications

References 35 publications

Monoenergetic proton beam accelerated by single reflection mechanism only during hole-boring stage

Monoenergetic proton beam accelerated by single reflection mechanism only during hole-boring stage

Facilities in Asia for future accelerator development

High Refractive Index Metamaterials by Using Higher Order Modes Resonances of Hollow Cylindrical Nanostructure in Visible Region

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