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Miniaturization has long been a trend in the creation of better devices, and the study of alternative materials for theproduction of well-known devices forms one large fraction of material science. Lasers and semiconductor devices have both had their part in the shaping of our current technological age and have formed a symbiosis in semiconductor lasers. The omnipresence of these unique light sources and the remaining high cost and ecological impact of growing suitable semiconductor materials have sparked the study of organic semiconductor devices and among them organic semiconductor lasers (OSLs). Still a field of great research efforts, the concept of microcavities as base structure for such systems holds the promise of in expensive, organic or "plastic" semiconductor lasers available to the ever-growing markets of consumer electronics. Studied since the mid-90s, first organic microcavity lasers had largely inaccessible dynamics until femtosecond spectroscopic techniques became increasingly available.This book presents a study of one exemplary system, its dynamicsand coherent properties. Also, introductory chapters allow greater access to the field of organic microcavities.