Titlebook: Novel Optical Technologies for Nanofabrication; Qian Liu,Xuanming Duan,Changsi Peng Book 2014 Springer-Verlag Berlin Heidelberg 2014 Large

構(gòu)想

Qian Liu,Xuanming Duan,Changsi Pengontology, consequentialism, or virtue ethics)? Further, should these non-legal concepts be imported in an unaltered way (“absolute approach”), or be adapted to the legal context (“relative approach”)??.This boo978-3-030-10582-2

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靦腆

Introduction,1960, laser has been developed rapidly, not only giving the traditional optical science a new life but also leading to the rise of a new industry. Up to now, laser has been widely used in medicine, beauty, manufacturing industry, weapon system, and other fields, because of its characteristics of hig

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Laser Micro-/Nanofabrication and Applications Based on Multiphoton Process,cessing capability, arbitrary designability, and high fabricating accuracy, has been widely employed in the development of micro/nanodevices and micro/nanoelectromechanical systems (MEMS/NEMS). There have been many studies that aimed at improving the spatial resolution, fabrication efficiency, as we

milligram

Laser Interference Nanofabrication,res of the LIL technology in fabrication of nanostructures and devices are high resolution compared with other optical technologies and low cost and high efficiency compared with other beam technologies. LIL is the preferred method to generate periodical and quasiperiodical patterns. It is a kind of

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Super-Resolution Patterning and Photolithography Based on Surface Plasmon Polaritons,ction-limit deep-subwavelength patterns with compatible infrastructure instrumentations, materials, and processing with those used in the conventional photolithography technology. The physics origin of the superior capability of the SPPs-based photolithography is based on the unique properties of “o

令人作嘔

Mass Production of Large-Format Micro-/Nanostructure-Based Optical Devices,onics and electro-optics. Among the emerging techniques, nanoimprinting lithography (NIL) clearly stands out as a promising technology for high throughput and high resolution beyond the limitations set by light diffraction or beam scattering that are encountered in traditional techniques. The major

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