2,955 research outputs found
Target shape effects on monoenergetic GeV proton acceleration
When a circularly polarized laser pulse interacts with a foil target, there
are three stages: pre-hole-boring, hole-boring and the light sail acceleration.
We study the electron and ion dynamics in the first stage and find the minimum
foil thickness requirement for a given laser intensity. Based on this analysis,
we propose to use a shaped foil for ion acceleration, whose thickness varies
transversely to match the laser intensity. Then, the target evolves into three
regions: the acceleration, transparency and deformation regions. In the
acceleration region, the target can be uniformly accelerated producing a
mono-energetic and spatially collimated ion beam. Detailed numerical
simulations are performed to check the feasibility and robustness of this
scheme, such as the influence of shape factors and surface roughness. A GeV
mono-energetic proton beam is observed in the three dimensional
particle-in-cell simulations when a laser pulse with the focus intensity of
1022W=cm2 is used. The energy conversion efficiency of laser pulse to
accelerated proton beam is more than 23%. Synchrotron radiation and damping
effects are also checked in the interaction.Comment: 11 pages, 9 figure
Reflective low-sideband plasmonic structural colors
It is demonstrated experimentally that an aluminum (Al) nanowire grating structure on silicon substrates can produce low-side-band monochromatic peak when it reflects colored light in the transverse magnetic (TM) mode. The central wavelength of the reflection is shown to be sensitive to the incident angle, which leads to significant color shifts. Formation of the monochromatic peak is attributed to the surface plasmon resonance on the interface between Al and air, together with remarkable diffraction at shorter wavelengths and strong Fabry-Perot (F-P) resonance absorption by Al-surrounding nano-cavities and silicon substrate at longer wavelengths. In contrast, reflection in transverse electric (TE) mode does not show distinct wavelength selectivity due to the cut-off effect of the nano-cavities. The outstanding characters of the proposed structure with polarization dependence, high sensitivity to incident angle, high color rendering facilitate more compact and sophisticated color-filter-based devices for displays, anti-counterfeit, and sensing applications. In addition, the two-dimensional structure with thin grating thickness and high duty ratio tolerance is relatively easy for fabrication
- …