Ci‐Ling Pan scite author profile

Nature routinely produces nanostructured surfaces with useful properties, such as the self-cleaning lotus leaf, the colour of the butterfly wing, the photoreceptor in brittlestar and the anti-reflection observed in the moth eye. Scientists and engineers have been able to mimic some of these natural structures in the laboratory and in real-world applications. Here, we report a simple aperiodic array of silicon nanotips on a 6-inch wafer with a sub-wavelength structure that can suppress the reflection of light at a range of wavelengths from the ultraviolet, through the visible part of the spectrum, to the terahertz region. Reflection is suppressed for a wide range of angles of incidence and for both s- and p-polarized light. The antireflection properties of the silicon result from changes in the refractive index caused by variations in the height of the silicon nanotips, and can be simulated with models that have been used to explain the low reflection from moth eyes. The improved anti-reflection properties of the surfaces could have applications in renewable energy and electro-optical devices for the military.

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Supercontinuum generation by noise-like pulses transmitted through normally dispersive standard single-mode fibers

Zaytsev¹,

Lin²,

You³

et al. 2013

Opt. Express

149

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We report generation of broadband supercontinuum (SC) by noise-like pulses (NLPs) with a central wavelength of 1070 nm propagating through a long piece of standard single-mode fibers (~100 meters) in normal dispersion region far from the zero-dispersion point. Theoretical simulations indicate that the physical mechanism of SC generation is due to nonlinear effects in fibers. The cascaded Raman scattering is responsible for significant spectral broadening in the longer wavelength regions whereas the Kerr effect results in smoothing of SC generated spectrum. The SC exhibits low threshold (43 nJ) and a flat spectrum over 1050-1250 nm.

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Near-infrared femtosecond laser-induced crystallization of amorphous silicon

Shieh

Chen

Dai³

et al. 2004

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Amorphous silicon ͑a-Si͒ was crystallized by femtosecond laser annealing (FLA) using a near-infrared ͑ Ϸ 800 nm͒ ultrafast Ti:sapphire laser system. The intense ultrashort laser pulses lead to efficient nonlinear photoenergy absorption and the generation of very dense photoexcited plasma in irradiated materials, enabling nonlinear melting on transparent silicon materials. We studied the structural characteristics of recrystallized films and found that FLA assisted by spatial scanning of laser strip spot constitutes superlateral epitaxy that can crystallize a-Si films with largest grains of ϳ800 nm, requiring laser fluence as low as ϳ45 mJ/ cm 2 , and low laser shots. Moreover, the optimal annealing conditions are observed with a significant laser-fluence window ͑ϳ30% ͒.

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Terahertz air-core microstructure fiber

Chang

et al. 2008

153

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A low-loss terahertz air-core microstructure fiber is demonstrated for terahertz waveguiding. Substantially low attenuation constant less than 0.01 cm −1 has been achieved and the guiding wavelength is found to be tunable by linear scaling the fiber size. The experimental results well agree with the simulation based on the finite-difference frequency-domain method, which interprets the guiding mechanism as the antiresonant reflecting waveguiding. The simulated modal pattern shows that most terahertz field is concentrated inside the central hollow air core and is guided without outside interference, which has high potential for guiding intense terahertz waves with minimized loss.

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Frequency-Dependent Complex Conductivities and Dielectric Responses of Indium Tin Oxide Thin Films From the Visible to the Far-Infrared

Chen

Lin

Chang

et al. 2010

IEEE J. Quantum Electron.

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Ci‐Ling Pan

Improved broadband and quasi-omnidirectional anti-reflection properties with biomimetic silicon nanostructures

Supercontinuum generation by noise-like pulses transmitted through normally dispersive standard single-mode fibers

Near-infrared femtosecond laser-induced crystallization of amorphous silicon

Terahertz air-core microstructure fiber

Frequency-Dependent Complex Conductivities and Dielectric Responses of Indium Tin Oxide Thin Films From the Visible to the Far-Infrared

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