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An insight into polarization states of solid-state organic lasers

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arxiv 1207.4904 v2 pith:3C5YDL2Z submitted 2012-07-20 physics.optics

An insight into polarization states of solid-state organic lasers

classification physics.optics
keywords polarizationlasersorganiccasegaininvestigatedmodesproperties
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The polarization states of lasers are crucial issues both for practical applications and fundamental research. In general, they depend in a combined manner on the properties of the gain material and on the structure of the electromagnetic modes. In this paper, we address this issue in the case of solid-state organic lasers, a technology which enables to vary independently gain and mode properties. Different kinds of resonators are investigated: in-plane micro-resonators with Fabry-Perot, square, pentagon, stadium, disk, and kite shapes, and external vertical resonators. The degree of polarization P is measured in each case. It is shown that although TE modes prevail generally (P>0), kite-shaped micro-laser generates negative values for P, i.e. a flip of the dominant polarization which becomes mostly TM polarized. We at last investigated two degrees of freedom that are available to tailor the polarization of organic lasers, in addition to the pump polarization and the resonator geometry: upon using resonant energy transfer (RET) or upon pumping the laser dye to an higher excited state. We then demonstrate that significantly lower P factors can be obtained.

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