Spontaneous emission in multilayer microcavities: modal theory extended with Fourier-Green analysis for dissipative structures

H. Rigneault, S. Maure, C. Amra
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引用次数: 5

Abstract

Two rigorous theories are presented and compared to describe the interaction with the electromagnetic field of localized sources confined within microcavities. Both the light which can escape the structure and the embedded radiation are taken into account by these formalisms. The modal theory describes the field in terms of modal functions and is limited to lossless structures. On the other hand, the Green approach can naturally cope with lossy cavities and considers the coupling of the sources with a continuum of waves with spatial frequencies ranging from zero to infinity. The two theories are compared and the consequences of losses are investigated in the case of a current source located in the spacer of a resonant multilayer structure. It is shown that the modal theory gives correct predictions when the imaginary part of the refractive index is as large as , whereas the Green approach becomes necessary to describe the emission in lossy structures. In this last case, we show that the spontaneous emission factor is not strongly affected by losses, although the emitted power is decreased due to absorption.
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多层微腔中的自发发射:耗散结构的傅里叶-格林分析扩展的模态理论
提出并比较了两种严格的理论来描述微腔内局域源与电磁场的相互作用。这些形式既考虑了从结构中逸出的光,也考虑了嵌入的辐射。模态理论用模态函数来描述场,并且仅限于无损结构。另一方面,Green方法可以自然地处理有耗空腔,并考虑与空间频率范围从零到无限的连续波的源的耦合。比较了这两种理论,并研究了电流源位于谐振多层结构的间隔层中的情况下损耗的后果。结果表明,当折射率的虚部为时,模态理论给出了正确的预测,而在有耗结构中,格林方法是描述发射的必要方法。在最后一种情况下,我们表明自发发射因子不受损耗的强烈影响,尽管发射功率由于吸收而降低。
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