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Nanoscale Optics and Photonics Xiaodong Yang, October 25, 2011 • Photonic crystals • Surface plasmons • Metamaterials The iridescence of Morpho butterfly Reference pictures resources: internet The scale of things The electromagnetic spectrum Electronics and photonics roadmaps Electronic integrated circuits Transistor Vacuum tube Early electronics Fast, low-cost, scalable and functional integrated devices Nanofabrication and nanomanufacturing techniques Optical MEMS Geometrical optics Nanophotonic integrated circuits Photonic crystals in nature Morpho butterfly Peacock feather Natural opals λ/2 Sea Mouse hair Photonic crystals and defects Photonic crystal: periodically structured electromagnetic media, generally possessing photonic band gaps. Lattice constants are comparable to the wavelength of light in the material. Point defect: cavity λ/2 Line defect: waveguide Photonic crystals with different dimensions Surface Plasmons Gothic stained glass rose window of Notre-Dame de Paris Water surface wave Surface Plasmons at metal-dielectric interface εd εm Evanescent field |Ez| λSP<<λ0 • Strong light localization near the metal-dielectric interface • Surface Plasmons with large k • SP wave interference 10 µm Metamaterials: beyond natural materials Natural materials “atoms” Atomic lattice constant a ~ 5.65 Å Optical wavelength λ ~1μm Homogeneous medium Crystal structure of sodium chloride (NaCl) Metamaterials “meta-atoms” a l a λ Artificially fabricated structures Unit cell a << wavelength λ Effective-media theory can be applied Material properties not existing in a l natural materials Negative Index of Refraction E Eo ei ( kz t ) k c n k H E c k E H c ε < 0, µ < 0 = n < 0 Negative Index of Refraction Snell’s Law Photonic integrated circuits • Photonic crystals • Surface plasmons • Metamaterials Applications of nanoscale optics and photonics Consumer electronics Optical communications • Semiconductor lasers • CCD imaging • LCD and LED displays • Photonic crystal fibers • Photodetectors • Optical switches Industrial applications • Photolithography • Laser manufacturing • High-power fiber lasers Nanoscale Optics and Photonics Biomedical • Biosensors • Fluorescence imaging • Cancer therapy Renewable energy • Solar energy harvesting • Thin-film photovoltaics • LED lighting
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