A 2D chiral microcavity based on apparent circular dichroism

Chen, Tzu-Ling; Salij, Andrew; Parrish, Katherine A.; Rasch, Julia K.; Zinna, Francesco; Brown, Paige J.; Pescitelli, Gennaro; Urraci, Francesco; Aronica, Laura A.; Dhavamani, Abitha; Arnold, Michael S.; Wasielewski, Michael R.; di Bari, Lorenzo; Tempelaar, Roel; Goldsmith, Randall H.

doi:10.1038/s41467-024-47411-4

Nat Commun

2024

DOI: 10.1038/s41467-024-47411-4

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A 2D chiral microcavity based on apparent circular dichroism

Tzu-Ling Chen,

Andrew Salij,

Katherine A. Parrish

et al.

Abstract: Engineering asymmetric transmission between left-handed and right-handed circularly polarized light in planar Fabry–Pérot (FP) microcavities would enable a variety of chiral light-matter phenomena, with applications in spintronics, polaritonics, and chiral lasing. Such symmetry breaking, however, generally requires Faraday rotators or nanofabricated polarization-preserving mirrors. We present a simple solution requiring no nanofabrication to induce asymmetric transmission in FP microcavities, preserving low mo… Show more

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Cited by 7 publications

References 80 publications

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Chiral Perovskite Nanowire Optoelectronic Synapse for Full‐Stokes Polarization‐Resolved Perception and Reservoir Computing

Liu,

Wang,

Wei

et al. 2024

Adv Funct Materials

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Full‐Stokes polarization‐resolved photonic artificial synapse (PAS) devices with in‐sensor computing capabilities show great potential for multimode vision perception and processing. However, current polarization‐resolved PAS devices are limited to monotonic recognition of linearly polarized light or circularly polarized light. Here, the study develops a chiral perovskite nanowire‐based PAS device as a full‐Stokes polarimeter to achieve polarization‐dependent neuromorphic optoelectronics. The device demonstrates a significantly high circular dichroism of over 400 millidegree and intrinsic linear dichroism, contributing to effectively sensing polarized light. Efficient charge separation at the perovskite NW/MXene heterostructure results in a prolonged carrier lifetime, thereby achieving a high responsivity of 2.3 AW−1, excellent synaptic behavior, and low power consumption of 0.5 pJ per synaptic stimuli. Significantly, the polarization‐modulated reservoir computing is developed based on the full‐Stokes PAS device, which exhibits a low normalized root mean square error of 0.023 in the chaotic system forecasting task. The single‐nanowire PAS device with the capability of sensing full‐Stokes parameters demonstrates great significance in building advanced energy‐efficient polarization‐resolved nanoscale neuromorphic vision systems.

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Chiral Perovskite Nanowire Optoelectronic Synapse for Full‐Stokes Polarization‐Resolved Perception and Reservoir Computing

Liu,

Wang,

Wei

et al. 2024

Adv Funct Materials

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Determining Pasteur Parameter for Chiral Medium using Long‐Range Surface Plasmon Resonance

Sun,

Zhou,

Miao

et al. 2024

Advanced Optical Materials

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Chirality is a fundamental property of nature, and recognizing chirality is crucial for human life. In this paper, a theoretical study on highly sensitive determination of the Pasteur parameter in chiral measurement is presented using long‐range surface plasmon polariton (LRSPP) resonance. The method is based on a thorough analysis of electromagnetic wave propagating in multilayer planar waveguide structures containing a chiral medium. Both the handedness and magnitude can be determined simultaneously, either by measuring the relative direction and separation of the spectral shift of the reflected right‐ and left‐handed circularly polarized components under the condition of an excited “bright” LRSPP mode, or by detecting the relative direction and amount of intensity split in the region of a “dark” LRSPP mode. The method offers improved measurement of the Pasteur parameter of 10−3 level for the “bright” mode and allows for an ultrasensitive measurement of 10−5 level for the “dark” mode. It is also immune to spectrum fluctuations or drifts caused by variations in the host refractive index or absorption loss. It is hoped that this work will inspire further optical techniques for high‐sensitivity chiral sensing and detection.

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Interplay of Circularly Polarized Light with Molecular and Structural Chirality: Chiral Lanthanide Complexes and Cellulose Nanocrystals

Cei,

Operamolla,

Zinna

2024

Advanced Optical Materials

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The interaction of circularly polarized (CP) light with chiral matter at different scales opens several possibilities of light manipulation in photonic and electronic devices. Here it is shown that in a multilayer architecture, it is possible to take advantage of the polarization‐selective reflection of the nematic arrangement of cellulose nanocrystals and the strong intrinsic CP luminescence (CPL) of the various bands of chiral Eu complexes. In this way, both the intrinsic CPL and total emission of the complex are modified depending on the enantiomer applied and on the detection geometry. This concept may apply for polarization control in electronic and photonic devices and polarized optical cavities.

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A 2D chiral microcavity based on apparent circular dichroism

Cited by 7 publications

References 80 publications

Chiral Perovskite Nanowire Optoelectronic Synapse for Full‐Stokes Polarization‐Resolved Perception and Reservoir Computing

Chiral Perovskite Nanowire Optoelectronic Synapse for Full‐Stokes Polarization‐Resolved Perception and Reservoir Computing

Determining Pasteur Parameter for Chiral Medium using Long‐Range Surface Plasmon Resonance

Interplay of Circularly Polarized Light with Molecular and Structural Chirality: Chiral Lanthanide Complexes and Cellulose Nanocrystals

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