Results 151 to 160 of about 44,956 (313)
Nanofabrications with Electron-Beam-Induced Deposition through Carbon Nanotube Emitters
, 2002 L. X. Dong, F. Arai, Takashi Fukuda
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Diamond kinoform hard X-ray refractive lenses: design, nanofabrication and testing [PDF]
, 2008 A. F. Isakovic +6 more
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Advanced Emissivity Tuning Via Femtosecond Laser Surface Engineering
Advanced Optical Materials, EarlyView.Femtosecond laser surface processing (FLSP) is employed to fabricate titanium‐based metamaterials with engineered micro/nano‐scale features that exhibit spectrally selective and omnidirectional thermal emissivity. By integrating advanced ellipsometry, electromagnetic modeling, and compositional analysis, the work reveals resonance‐driven emissivity ...
Zahra Kamali Khanghah +8 more
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Nanofabrication of magnetic tunnel junctions by using side-edge thin film deposition
, 2003 Tomohiko Niizeki +3 more
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Inhomogeneous Anodization of Aluminum for Nanofabrication [PDF]
, 2008 Yasuo Kimura +3 more
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Flat Optics for Polarization Structure Engineering from 2D to 3D
Advanced Optical Materials, EarlyView.Metasurfaces have transformed polarization control by enabling precise engineering of complex polarization structures. This review explores their evolution from generating 2D polarization structures to shaping fully 3D polarization fields. By unlocking the unprecedented control over the polarization and spectral information of light, these advances ...
Buxiong Qi, Yan Li, Xianzhong Chen
wiley +1 more source
Coherent Control of Thermal Radiation with Nanophotonics
Advanced Photonics Research, EarlyView.This review explores the innovative control of thermal radiation coherence using nanophotonic structures. The fundamentals of thermal radiation, coherence control strategies (temporal, spatial, and polarization), and their applications in infrared sensing, radiative cooling, thermal camouflage, and imaging, are discussed.
Yuanrong Zhang +4 more
wiley +1 more source
Nanofabrication by Scanning Probes
, 2008 As described in Chaps. 2– 4, both photons and charged beams are capable of delineating sub-100 nm patterns. However, one question has been missing, that is, at what cost? To break into sub-100 nm scale, many “tricks,” apart from short wavelength and high NA, have to be used in photon-based lithography, and very sophisticated electron or ion optical ...
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