Wang, BowenDündar, Mehmet A.Nötzel, RichardKarouta, FouadHe, Sailingvan der Heijden, Rob W.2016-04-212016-04-210740-3224http://hdl.handle.net/1885/101084We demonstrate the independent lithographic mode tuning by changing the holes around the defect area of photonic crystal nanocavities containing light-emitting quantum dots. The data have been verified by the three- dimensional finite-difference time domain simulation. These findings can be applied to realize encoded particles with large coding capability (>105) for biosensing.© 2011 Optical Society of AmericaKeywords: Biosensing; Crystal nanocavities; Encoded particle; Finite-difference time-domain simulation; Mode tuning; Finite difference time domain method; Photonic crystals201110.1364/JOSAB.28.0007212016-06-14