Modes of structurally chiral lasers

Topf, Renè D M; McCall, Martin W.

doi:10.1103/physreva.90.053824

Cited by 9 publications

(4 citation statements)

References 24 publications

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“…There are several formalisms to describe the propagation of light through chiral media [20] [21]. The propagation of electromagnetic waves through anisotropic plywood structures can also be described by the formalism developed by Berreman [22].…”

Section: Theoretical Formalismmentioning

confidence: 99%

Light Reflection by Cuticles of Chrysina Jewel Scarabs: Optical Measurements, Morphology Characterization, and Theoretical Modeling

Vargas¹,

Hernández-Jiménez²,

Libby³

et al. 2016

OPJ

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Cuticles of some Chrysina scarabs are characterized by flat, graded, and twisted structures of nanosized chitin fibrils. As inferred from SEM images, each species has its own spatial period or pitch P which is dependent on the depth z through the cuticle. From Berreman's formalism, taking into account the corresponding P(z) dependence, we evaluate reflection spectra of C. aurigans and C. chrysargyrea scarabs. The spectra display the main spectral features observed in the measured ones when small sections of the cuticles are illuminated with non-polarized light, for wavelengths between 300 and 1100 nm. By considering these twisted structures as 1D photonic crystals, an approach is developed to show how the broad band characterizing the reflection spectra arises from a narrow intrinsic photonic band width, whose spectral position moves through visible and near infrared wavelengths. The role of the epicuticle that covers the twisted structures is analyzed in terms of a waxy layer acting as an anti-reflecting coating that also shows low levels of light scattering.

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Section: Theoretical Formalismmentioning

confidence: 99%

Light Reflection by Cuticles of Chrysina Jewel Scarabs: Optical Measurements, Morphology Characterization, and Theoretical Modeling

Vargas¹,

Hernández-Jiménez²,

Libby³

et al. 2016

OPJ

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“…8f,g,9 However, this interesting future technology still requires the development of both commercial CPL microscopes and batteries of efficient CPL dyes that can be used in biological media. In relation with the latter, the development of CPL laser dyes 10 enabling efficient, stable and tunable broad-line-width laser emission should be a top priority objective in CPL research, due to its potential application in different fields ( e.g. , accurate study of biological processes involving chiral products, 11 efficient promotion of light-induced asymmetric processes, 12 or control of chiral morphologies in nanostructures 13 ).…”

Section: Introductionmentioning

confidence: 99%

Circularly Polarized Luminescence from Simple Organic Molecules

Sánchez‐Carnerero

Agarrabeitia

Moreno

et al. 2015

Chemistry A European J

829

578

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This article aims to show the identity of “CPL-active simple organic molecules” as a new concept in Organic Chemistry due to the potential interest of these molecules, as availed by the exponentially growing number of research articles related to them. In particular, it describes and highlights the interest and difficulty in developing chiral simple (small and nonaggregated) organic molecules able to emit left- or right-circularly polarized light efficiently, the efforts realized up to now to reach this challenging objective, and the most significant milestones achieved to date. General guidelines for the preparation of these interesting molecules are also presented.

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“…Circularly polarized luminescence (CPL) accounts for the differential emission of left-handed and right-handed circularly polarized (CP) light. − The interest in this phenomenon lies in the higher resolution that CP light brings to the applications where it is used, leading to the development of smarter photonic materials for advanced technologies, such as three-dimensional (3D) displaying, information storage and processing, , communication of spin information (spintronics-based devices), or ellipsometry-based tomography. , Going one step beyond, the virtually unexplored direct emission of circularly polarized laser light (CPLE) has a huge potential in the improvement of many of these applications , as well as in other advanced fields such as the accurate study of biological processes involving chiral products; , the efficient promotion of light-induced asymmetric processes in confined systems, such as zeolites, , nanostructured surfaces, or polymeric matrixes; − or the control of chiral morphologies in nanostructures . Therefore, the development of new materials enabling CPLE should be a top priority objective in materials science research.…”

Section: Introductionmentioning

confidence: 99%

Chiral Organic Dyes Endowed with Circularly Polarized Laser Emission

et al. 2017

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The direct generation of efficient, tunable, and switchable circularly polarized laser emission (CPLE) would have far-reaching implications in photonics and material sciences. In this paper, we describe the first chiral simple organic molecules (SOMs) capable of simultaneously sustaining significant chemical robustness, high fluorescence quantum yields, and circularly polarized luminescence (CPL) ellipticity levels (|glum|) comparable to those of similar CPL-SOMs. All these parameters altogether enable efficient laser emission and CPLE with ellipticity levels 2 orders of magnitude stronger than the intrinsic CPL ones.

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Modes of structurally chiral lasers

Cited by 9 publications

References 24 publications

Light Reflection by Cuticles of Chrysina Jewel Scarabs: Optical Measurements, Morphology Characterization, and Theoretical Modeling

Light Reflection by Cuticles of Chrysina Jewel Scarabs: Optical Measurements, Morphology Characterization, and Theoretical Modeling

Circularly Polarized Luminescence from Simple Organic Molecules

Chiral Organic Dyes Endowed with Circularly Polarized Laser Emission

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