03520nam 2200601 450 991013223050332120230707215719.01-118-64939-71-118-64940-0(CKB)3710000000093471(EBL)1650827(MiAaPQ)EBC1650827(Au-PeEL)EBL1650827(CaPaEBR)ebr10849271(CaONFJC)MIL584486(OCoLC)874321801(PPN)188179852(EXLCZ)99371000000009347120140326h20142014 uy 0engur|n|---|||||rdacontentrdamediardacarrierDispersion engineering for integrated nanophotonics /Olivier Vanbésien, Emmanuel CentenoLondon, England ;Hoboken, New Jersey :ISTE :Wiley,2014.©20141 online resource (118 p.)FOCUS Waves Series,2051-249XFOCUS SeriesDescription based upon print version of record.1-84821-564-9 Includes bibliographical references and index.Cover; Title Page; Contents; Introduction; Chapter 1. Two-dimensional Dielectric Photonic Crystals; 1.1. Context; 1.2. Concepts: photonic band structures and equi-frequency curves; 1.2.1. Basic concepts on electromagnetic waves in 2D PhCs; 1.2.2. Dispersion surfaces, equi-frequency curves and group velocity; 1.3. Fundamental dispersion effects; 1.3.1. The construction line method; 1.3.2. A beam propagation model; 1.3.3. The self-collimation effect; 1.3.4. Mesoscopic self-collimation of light; 1.3.5. The superprism effect2.3.3. Positive index based GRIN lens (the pillar case)2.3.4. Experimental evaluation of GRIN lenses; 2.4. Conclusion; Chapter 3. Towards Transform Optics Based Devices; 3.1. Context; 3.2. From transform optics to Hamiltonian optics; 3.2.1. Transform optics; 3.2.2. Conformal mapping; 3.2.3. Hamiltonian optics; 3.3. 1D graded photonic crystals; 3.3.1. 2D graded photonic crystals; 3.4. Cloaking devices; 3.4.1. A brief overview of optical cloaking; 3.4.2. A III-V based photonic crystal carpet: design and fabrication; 3.4.3. A III-V based photonic crystal carpet: evaluation and discussion3.5. ConclusionConclusion; Bibliography; IndexThis book shows how dispersion engineering in two dimensional dielectric photonic crystals can provide new effects for the precise control of light propagation for integrated nanophotonics.Dispersion engineering in regular and graded photonic crystals to promote anomalous refraction effects is studied from the concepts to experimental demonstration via nanofabrication considerations. Self collimation, ultra and negative refraction, second harmonic generation, mirage and invisibility effects which lead to an unprecedented control of light propagation at the (sub-)wavelength scale for tFocus series in waves.Focus series (London, England)NanophotonicsData processingNanophotonicsNanophotonicsData processing.Nanophotonics.621.36Vanbésien Olivier896419Centeno EmmanuelMiAaPQMiAaPQMiAaPQBOOK9910132230503321Dispersion engineering for integrated nanophotonics2084658UNINA