Transmissivity and Reflectivity of a Transverse‐Electric Polarized Wave Incident on a Microcavity Containing Strongly Coupled Excitons with In‐plane Uniaxially Oriented Transition Dipole Moments,Physica Status Solidi (B) - Basic Solid State Physics

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Transmissivity and Reflectivity of a Transverse‐Electric Polarized Wave Incident on a Microcavity Containing Strongly Coupled Excitons with In‐plane Uniaxially Oriented Transition Dipole Moments
Physica Status Solidi (B) - Basic Solid State Physics ( IF 1.5 ) Pub Date : 2020-07-03 , DOI: 10.1002/pssb.202000235
Florian Le Roux ₁ , Robert Anthony Taylor ₁ , Donal Donat Conor Bradley _{1,

2}

Affiliation

This work examines the reflectivity and transmissivity of a transverse‐electric (TE) polarized wave incident on a microcavity containing strongly coupled excitons with in‐plane uniaxially oriented transition dipole moments, and a different interpretation to a previous report is presented. The propagation of the electric field inside the cavity is discussed, and a distinction is made between two different physical cases: the first, previously observed, and the second, which enables the interpretation of measurements carried out on a microcavity containing an oriented layer of liquid‐crystalline poly(9,9‐dioctylfluorene). In all cases, the reflected and transmitted electric fields derive from photons leaking parallel and perpendicular to the transition dipole moment orientation.

中文翻译：

包含强耦合激子且面内单轴取向跃迁偶极矩的微腔上的横向电偏振波入射的透射率和反射率

这项工作研究了入射在包含腔内单轴取向跃迁偶极矩的强耦合激子的微腔上的横向电（TE）极化波的反射率和透射率，并提出了与先前报告不同的解释。讨论了空腔内部电场的传播，并在两种不同的物理情况之间进行了区分：第一种是先前观察到的，第二种是可以解释在包含液体定向层的微腔上执行的测量的方法-结晶聚（9,9-二辛基芴）。在所有情况下，反射和透射电场均来自平行于和垂直于跃迁偶极矩取向泄漏的光子。

更新日期：2020-09-10

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