"RIV/68407700:21340/13:00214890" . . "110364" . "Vojt\u00ED\u0161ek, Petr" . . . "58" . "Richter, Ivan" . . . "RIV/68407700:21340/13:00214890!RIV14-MSM-21340___" . "Teoretick\u00E9 a experiment\u00E1ln\u00ED aspekty op\u00E1lov\u00FDch fotonick\u00FDch krystal\u016F"@cs . . . . . . "Teoretick\u00E9 a experiment\u00E1ln\u00ED aspekty op\u00E1lov\u00FDch fotonick\u00FDch krystal\u016F" . "Theoretical and experimental aspects of opal photonic crystals"@en . . . "Among many unusual and interesting physical properties of photonic crystals (PhC), in recent years, the propagation of surface electromagnetic waves along dielectric PhC boundaries have attracted considerable attention, also in connection to their possible applications. Such surfaces states, produced with the help of specialized defects on PhC boundaries, similarly to surfaces plasmons, are localized surfaces waves and, as such, can be used in various sensing applications. In this contribution, we present our recent studies on numerical modelling of surface states (SS) for all three cases of PhC dimensionality. Simulations of these states were carried out by the use of plane wave expansion (PWE) method via the MIT MPB package."@en . . . . . . . "CZ - \u010Cesk\u00E1 republika" . . "\u0160tolcov\u00E1, Lucie" . "[5DEE14867B8A]" . "Teoretick\u00E9 a experiment\u00E1ln\u00ED aspekty op\u00E1lov\u00FDch fotonick\u00FDch krystal\u016F"@cs . "photonic crystal; opal; PVK; self-assembly; plane wave expansion method; finite difference time domain; MIT MPB; MIT Meep; surface state; dispersion diagram"@en . . . "7"^^ . . "Pro sou\u010Dasn\u00E9 i budouc\u00ED optick\u00E9 aplikace je velmi d\u016Fle\u017Eit\u00E9 m\u00EDti mo\u017Enost c\u00EDlen\u00E9 manipulace s optick\u00FDm z\u00E1\u0159en\u00EDm. Fotonick\u00E9 krystaly (PhC) p\u0159edstavuj\u00ED velice zaj\u00EDmav\u00E1 materi\u00E1lov\u00E1 uskupen\u00ED s mnoha atraktivn\u00EDmi fyzik\u00E1ln\u00EDmi atributy, mimo jin\u00E9 mohou slou\u017Eit pr\u00E1v\u011B pro zm\u00EDn\u011Bnou manipulaci sv\u011Btla. V tomto p\u0159\u00EDsp\u011Bvku p\u0159edkl\u00E1d\u00E1me na\u0161e ned\u00E1vn\u00E9 teoretick\u00E9 (simulace) a experiment\u00E1ln\u00ED (realizace PhC) v\u00FDsledky t\u00FDkaj\u00EDc\u00ED se op\u00E1lov\u00FDch PhC (prim\u00E1rn\u011B zalo\u017Een\u00FDch na SiO2). Tyto op\u00E1lov\u00E1 PhC lze toti\u017E relativn\u011B snadno realizovat pomoc\u00ED jednoduch\u00E9 sedimenta\u010Dn\u00ED metody samouspo\u0159\u00E1d\u00E1n\u00ED modifikovan\u00E9 o prostorovou restrikci oblasti, ve kter\u00E9 doch\u00E1z\u00ED k formov\u00E1n\u00ED PhC. Existence tzv. fotonick\u00E9ho zak\u00E1zan\u00E9ho p\u00E1su, jako\u017Eto jedn\u00E9 z mnoha zaj\u00EDmav\u00FDch vlastnost\u00ED, m\u016F\u017Ee b\u00FDti zaji\u0161t\u011Bna pomoc\u00ED infiltrace \u010Di inverze p\u016Fvodn\u00EDho p\u0159\u00EDm\u00E9ho op\u00E1lov\u00E9ho PhC. Pro infiltraci byl zvolen fotovodiv\u00FD polymern\u00ED materi\u00E1l poly(9-vinylcarbazole) (PVK), kter\u00FD po n\u00E1sledn\u00E9 inverzi tvo\u0159\u00ED fin\u00E1ln\u00ED inverzn\u00ED PhC. P\u0159ipraven\u00E9 op\u00E1lov\u00E9 PhC jsou pravideln\u011B uspo\u0159\u00E1dan\u00E9 a vykazuj\u00ED vysokou stabilitu vznikl\u00E9 struktury. Pro teoretick\u00E9 simulace byly u\u017Eity dva typy voln\u011B dostupn\u00FDch numerick\u00FDch n\u00E1stroj\u016F \u2013 MPB metoda - na b\u00E1zi metody rovinn\u00FDch vln (pro simulace nedisperzn\u00EDch materi\u00E1l\u016F) a metoda Meep - na b\u00E1zi metody kone\u010Dn\u00FDch diferenc\u00ED v \u010Dasov\u00E9 dom\u00E9n\u011B (pro materi\u00E1ly se zahrnut\u00EDm disperze)." . "I, P(ED2.1.00/03.0079), P(GAP205/10/0046), P(GBP205/12/G118), P(KAN401220801), P(OC09038)" . . "Teoretick\u00E9 a experiment\u00E1ln\u00ED aspekty op\u00E1lov\u00FDch fotonick\u00FDch krystal\u016F" . . . . . "4" . . "Theoretical and experimental aspects of opal photonic crystals"@en . "Pro\u0161ka, Jan" . "4"^^ . . "Jemn\u00E1 mechanika a optika" . "21340" . "4"^^ . "0447-6441" . "Pro sou\u010Dasn\u00E9 i budouc\u00ED optick\u00E9 aplikace je velmi d\u016Fle\u017Eit\u00E9 m\u00EDti mo\u017Enost c\u00EDlen\u00E9 manipulace s optick\u00FDm z\u00E1\u0159en\u00EDm. Fotonick\u00E9 krystaly (PhC) p\u0159edstavuj\u00ED velice zaj\u00EDmav\u00E1 materi\u00E1lov\u00E1 uskupen\u00ED s mnoha atraktivn\u00EDmi fyzik\u00E1ln\u00EDmi atributy, mimo jin\u00E9 mohou slou\u017Eit pr\u00E1v\u011B pro zm\u00EDn\u011Bnou manipulaci sv\u011Btla. V tomto p\u0159\u00EDsp\u011Bvku p\u0159edkl\u00E1d\u00E1me na\u0161e ned\u00E1vn\u00E9 teoretick\u00E9 (simulace) a experiment\u00E1ln\u00ED (realizace PhC) v\u00FDsledky t\u00FDkaj\u00EDc\u00ED se op\u00E1lov\u00FDch PhC (prim\u00E1rn\u011B zalo\u017Een\u00FDch na SiO2). Tyto op\u00E1lov\u00E1 PhC lze toti\u017E relativn\u011B snadno realizovat pomoc\u00ED jednoduch\u00E9 sedimenta\u010Dn\u00ED metody samouspo\u0159\u00E1d\u00E1n\u00ED modifikovan\u00E9 o prostorovou restrikci oblasti, ve kter\u00E9 doch\u00E1z\u00ED k formov\u00E1n\u00ED PhC. Existence tzv. fotonick\u00E9ho zak\u00E1zan\u00E9ho p\u00E1su, jako\u017Eto jedn\u00E9 z mnoha zaj\u00EDmav\u00FDch vlastnost\u00ED, m\u016F\u017Ee b\u00FDti zaji\u0161t\u011Bna pomoc\u00ED infiltrace \u010Di inverze p\u016Fvodn\u00EDho p\u0159\u00EDm\u00E9ho op\u00E1lov\u00E9ho PhC. Pro infiltraci byl zvolen fotovodiv\u00FD polymern\u00ED materi\u00E1l poly(9-vinylcarbazole) (PVK), kter\u00FD po n\u00E1sledn\u00E9 inverzi tvo\u0159\u00ED fin\u00E1ln\u00ED inverzn\u00ED PhC. P\u0159ipraven\u00E9 op\u00E1lov\u00E9 PhC jsou pravideln\u011B uspo\u0159\u00E1dan\u00E9 a vykazuj\u00ED vysokou stabilitu vznikl\u00E9 struktury. Pro teoretick\u00E9 simulace byly u\u017Eity dva typy voln\u011B dostupn\u00FDch numerick\u00FDch n\u00E1stroj\u016F \u2013 MPB metoda - na b\u00E1zi metody rovinn\u00FDch vln (pro simulace nedisperzn\u00EDch materi\u00E1l\u016F) a metoda Meep - na b\u00E1zi metody kone\u010Dn\u00FDch diferenc\u00ED v \u010Dasov\u00E9 dom\u00E9n\u011B (pro materi\u00E1ly se zahrnut\u00EDm disperze)."@cs . "http://hdl.handle.net/11104/0229385" . . .