Photonics

<p>Part One Photonic paths </p> <p>1 Open loop <br>2 Closed loop<br>3 Path states<br>4 Open loop examples<br>5 Closed loop examples<br>6 Closed loop and stubs<br>7 Eigenfunction rules <br>8 General wave perspectives</p> <p>Part Two Photonic circuits </p> <p>9 Electromagnetic induced transparency, induced absorption, and Fano resonances in photonic circuits <br>10 Photonic demultiplexers based on Fano and induced transparency resonances <br>11 Photonic monomode circuits: comb structures <br>12 Serial loop structures: photonic bandgaps, confined, cavity, and surface modes<br>13 Fibonacci loop structures: bandgaps, power law, scaling law, confined and surface modes<br>14 One-dimensional photonic waveguide for filtering and demultiplexing<br>15 Silicon nanowires and nanopillars for photovoltaic<br>16 Transmission line photonic crystals: a comparison of Green’s formalism, lumped circuit element model, and finite element method</p> <p>Part Three Photonic materials </p> <p>17 Interface response function in layered photonic materials<br>18 Optical Tamm states in semiinfinite layered photonic crystals 19 Optical waves in finite layered photonic crystals <br>19 Optical waves in finite layered photonic crystals<br>20 Omnidirectional bandgaps and selective transmission in layered photonic crystals <br>21 Layered photonic crystals with left-handed materials<br>22 Superluminal, negative delay times and selective transmission in isotropic–anisotropic layered media<br>23 Multilayered structures based one dimensional photonic crystals for MEMS applications <br></p>