16 October 2007 Loss processes in organic double-heterostructure laser diodes
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Abstract
At high current densities, the characteristics of organic laser diode structures are strongly influenced by a variety of loss processes such as bimolecular annihilations, field-induced exciton dissociation and induced absorptions due to polarons and triplet excitons. Here, we investigate a TE2-mode organic double-heterostructure laser diode by numerical simulation. The electrical properties are described using a numerical drift-difusion model and the optical characteristics are modeled using a transfer matrix method. When annihilation processes are included, a threshold current density of 8.5 kA/cm2 is derived for the considered device. Laser operation is not achieved when field-induced exciton dissociation is considered. For induced absorptions, maximum relative cross sections of 9.6 × 10-8 for polarons and 1.4 × 10-4 for triplet excitons have been calculated, which would still allow laser operation. For higher relative absorption cross sections, laser operation is suppressed for all current densities. Furthermore, the impact of field quenching is analyzed and the separation of singlet excitons from polarons and triplet excitons in the time domain is studied.
© (2007) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Christian Gärtner, Christian Gärtner, Christian Karnutsch, Christian Karnutsch, Jan Brückner, Jan Brückner, Nico Christ, Nico Christ, Stephan Uebe, Stephan Uebe, Uli Lemmer, Uli Lemmer, Patrick Görrn, Patrick Görrn, Torsten Rabe, Torsten Rabe, Thomas Riedl, Thomas Riedl, Wolfgang Kowalsky, Wolfgang Kowalsky, } "Loss processes in organic double-heterostructure laser diodes", Proc. SPIE 6655, Organic Light Emitting Materials and Devices XI, 66550T (16 October 2007); doi: 10.1117/12.733686; https://doi.org/10.1117/12.733686
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