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576 results on '"Araoka, Fumito"'

1. Tunable Intracavity Coherent Up-conversion with Giant Nonlinearity in a Polar Fluidic Medium

Author

Okada, Daichi, Nishikawa, Hiroya, and Araoka, Fumito

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

We demonstrate a novel microcavity-based photon up-conversion using second harmonic generation (SHG) from a polar nematic fluid media doped with a laser dye. The present idea is based on coherent light generation via simultaneous frequency doubling and stimulated emission (lasing) inside a microcavity. The polar nematic fluid equips very high even-order optical nonlinearity due to the polar symmetry and large dipole moment along the molecular long axis. At the same time, its inherent fluidic nature allows us to easily functionalize the media just by doping, in the present case, with an emissive laser dye. Our demonstrated system exhibits a giant nonlinear optical response to input light, while enabling spectral narrowing and multiple-signal output of up-converted light, that is not attainable though the simple SH-conversion of input light. Furthermore, susceptibility of the liquid crystal offers dynamic modulation capabilities under external stimulus, such as signal switching with electric field application or wavelength tuning through temperature variation. Such a brand-new type of simple coherent flexible up-conversion system must be promising as a new principle for easy-accessible and down-scalable wavelength conversion devices.

Published
2024

2. Emergent Ferroelectric Nematic and Heliconical Ferroelectric Nematic States in an Achiral 'Straight' Polar Rod Mesogen

Author

Nishikawa, Hiroya, Okada, Daichi, Kwaria, Dennis, Nihonyanagi, Atsuko, Kuwayama, Motonobu, Hoshino, Manabu, and Araoka, Fumito

Subjects
Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter
Abstract

Ferroelectric nematic liquid crystals (NFLCs) are distinguished by their remarkable polarization characteristics and diverse physical phenomena, sparking significant interest and excitement within the scientific community. To date, over 150 NFLC molecules have been developed; however, there are no reports regarding straight linear polar molecules with a parallel alignment of the permanent dipole moment and the molecular axis. The straight polar mesogen nBOE exhibited an enantiotropic NF phase with a wide temperature window (up to 100 K) despite having a longer alkyl chain (up to n = 6) than the critical alkyl chain length of conventional models. Interestingly, nBOE with a medium length alkyl chain displayed an exotic phase sequence of NF-HCNF-SmCF during the elimination of positional displacement among adjacent molecules. Furthermore, we demonstrate the reflective color modulation of the HCNFLC over the entire VIS-NIR spectral regime by ultralow E-field (up to 0.14 V um^-1)., Comment: 21 pages, 5 figures

Published
2024

3. Significant impact of light-matter strong coupling on chiral nonlinear optical effect

Author

Okada, Daichi and Araoka, Fumito

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Light-matter strong coupling (LMSC) is intriguing state in which light and matter are coherently hybridized inside cavity. It has been gaining widespread recognition as an excellent way for controlling material properties without any chemical modification. Here we show the LMSC is a powerful state to manipulate and improve a chiral nonlinear optical (NLO) effect through the investigation of second harmonic generation circular dichroism. At the upper polaritonic band in LMSC, in addition to an enhancement of SHG intensity by more than one order of magnitude, the responsivity to the handedness of circular polarized light is largely modified, where sign inversion and increase of dissymmetric factor is achieved. Quarter wave plate rotation analysis reveals that the LMSC clearly influence the coefficients associated with chirality in NLO process and it also contributes to the enhancement of nonlinear magnetic dipole interactions. This study demonstrates that LMSC serves as a novel platform for control of chiral optoelectronics and magneto-optics.

Published
2024

4. Magneto-chiral nonlinear optical effect with large anisotropic response in two-dimensional halide perovskite

Author

Okada, Daichi and Araoka, Fumito

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

The chiral organic-inorganic halide perovskites (OIHPs) are vital candidates for superior nonlinear optical (NLO) effects associated with circularly polarized (CP) light. NLO in chiral materials often couples with magnetic dipole (MD) transition, as well as the conventional electric dipole (ED) transition. However, the importance of MD in NLO process of chiral OIHPs has not yet been well recognized. Here, the analysis of second harmonic generation circular dichroism (SHG-CD) provides the direct evidence that the MD contribution leads to a large anisotropic response to CP lights in chiral OIHPs, (R-/S-MBACl)2PbI4. The thin films exhibit great sensitivity to CP lights over a wide wavelength range, and the g-value reaches up to 1.57 at the wavelength where the contribution of MD is maximized. Furthermore, it is also effective as CP light generator, outputting CP-SHG with maximum g-factor of 1.76 upon the stimulation of linearly polarized light. This study deepens the understanding of the magneto-optical NLO processes in chiral systems.

Published
2024

6. Nanostructural polymorphism in the low-birefringence chiral phase of an achiral bent-shaped dimer

Author

Le, Khoa V., Tuchband, Michael R., Iwayama, Hiroshi, Takanishi, Yoichi, Clark, Noel A., and Araoka, Fumito

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Polymorphism, the phenomenon that a species can exist in many discrete forms, is common in nature, such as hair colors in an animal species, flower colors in a tree species, and blood types in humans, etc. In materials science, it refers to a solid that can exist in multiple forms with different crystalline structures. In the liquid crystals field, however, polymorphism is hard to find because a discontinuous structural variation is basically impossible because of their fluid or partially fluid nature. Herein we show that the B4 and DC phases that for many years have been classified as distinctive phases are connected, in terms of their nano-architectures, based on the study of a single compound, a flexible bent-shaped dimer. The surrounding solvent is the key to assisting the dimeric molecules in morphing and adopting different supramolecular structures at the mesoscale. Furthermore, we accidentally find a novel nanotube-like structure that has not yet been reported in view of the B4/DC phases. Together with the known sponge (DC) and the helical filament (B4) structures, they are just some of the manifestations of the polymorphism in a class of low-birefringence, chiral phase from achiral liquid crystals., Comment: M: 16p, 5f; SI: 9p, 9f

Published
2022

7. Nano-Clustering Mediates Phase Transitions in a Diastereomerically-Stabilized Ferroelectric Nematic System

Author

Nishikawa, Hiroya, Sano, Koki, Kurihara, Saburo, Watanabe, Go, Nihonyanagi, Atsuko, Dhara, Barun, and Araoka, Fumito

Subjects
Condensed Matter - Materials Science
Abstract

During the last half-decade, a new class of ferroic-fluid, ferroelectric nematic liquid crystals (NFLCs), creates a noise owing to its exceptional properties such as a colossal polarization, high electro-optic activity plus high fluidity. Regardless of recent huge efforts on design and development of new NFLC molecules based on molecular parameters, the control of NF phase transitions and the stabilization of NF phase are still challenging. Here we discuss the impact of mixing of DIO diastereomer [transDIO (1) and cisDIO (2)] to the NF phase transition, in terms of the smectic cybotactic cluster formation examined by X-ray diffraction. Interestingly, the result suggests that smooth exchange of NFLC 1 by non-LC 2 both with similar dipole and molecular backbone plays a role in the alteration of the NF phase transition., Comment: main paper has 29 pages with 5 figures; supplementary information has 62 pages with 40 figures and 2 Tables

Published
2022

8. Current-in-plane magnetoresistance in chiral-molecule/ferromagnetic metal bilayer due to thermally induced spin polarization

Author

Kondou, Kouta, Shiga, Masanobu, Sakamoto, Shoya, Inuzuka, Hiroyuki, Nihonyanagi, Atsuko, Araoka, Fumito, Kobayashi, Masaki, Miwa, Shinji, Miyajima, Daigo, and Otani, YoshiChika

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report chirality-induced current-in-plane magnetoresistance (CIP-MR) in chiral molecule/ferromagnetic metal bilayer at room temperature. The previously reported chiralityinduced current-perpendicular-to-plane magnetoresistance (CPP-MR) originates from the chiral induced spin-selectivity (CISS) effect that needs charge-current passing through the molecule. In contrast, the observed CIP-MR in the present study requires no bias charge current through the molecule. The temperature dependence of CIP-MR suggests thermally induced spin-polarization in the chiral molecules is the key for the observed MR., Comment: 11 pages, 4 figures

Published
2021

10. Chirality-induced effective magnetic field in a phthalocyanine molecule

Author

Miwa, Shinji, Kondou, Kouta, Sakamoto, Shoya, Nihonyanagi, Atsuko, Araoka, Fumito, Otani, YoshiChika, and Miyajima, Daigo

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Chirality in organic molecules has attracted considerable attention in the fields of chemistry, biology, and spintronics. This paper reports on perpendicular magnetization hysteresis loops of a multilayer consisting of ultrathin Fe (001), chiral phthalocyanine molecule ((P)- or (M)-PbPc-DTBPh), and MgO (001). We find a chirality-dependent shift of the hysteresis loop. Unlike the previously reported bias current induced phenomena, the result shows a chirality-induced effective magnetic field in the phthalocyanine molecule in the absence of a bias current in the system. This study opens up a new direction in the emerging field of chiral molecular spintronics.

Published
2021
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11. Kinetics of motile solitons in fluid nematics

Author

Aya, Satoshi and Araoka, Fumito

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science
Abstract

Solitary waves, dubbed "solitons", are special types of waves that propagate for an infinite distance under ideal conditions. These waves are ubiquitously found in nature such as typhoon or neuron signals. Yet, their artificial generation and the control of their propagation remain outstanding challenges in materials science owing to an insufficient understanding of the experimental conditions and theoretical aspects. Herein, a generic strategy for forming particle-like solitons and controlling their kinetics in nematic fluid media is reported. The key to the realisation of the generation of solitons and the control of their kinetics is the coupling between the fluid elasticity and the background flow flux, as evidenced by experimental observations and theoretical approaches. The findings of this study enable the exploration of solitons in a wide range of materials and have technological ramifications for the lossless transport of energy or structures., Comment: Manuscript 25 pages, 6 figures, Supplementary Information 23 pages, 13 figures

Published
2019
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25. Reconfigurable Photonic Crystal Reversibly Exhibiting Single and Double Structural Colors.

Author

Zhan, Yi‐Yang, Ogawa, Daisuke, Sano, Koki, Wang, Xiang, Araoka, Fumito, Sakai, Nobuyuki, Sasaki, Takayoshi, and Ishida, Yasuhiro

Subjects
STRUCTURAL colors, PHOTONIC crystals, OTOACOUSTIC emissions, STRUCTURAL design, PIGMENTS
Abstract

Unlike absorption‐based colors of dyes and pigments, reflection‐based colors of photonic crystals, so called "structural colors", are responsive to external stimuli, but can remain unfaded for over ten million years, and therefore regarded as a next‐generation coloring mechanism. However, it is a challenge to rationally design the spectra of structural colors, where one structure gives only one reflection peak defined by Bragg's law, unlike those of absorption‐based colors. Here, we report a reconfigurable photonic crystal that exhibits single‐peak and double‐peak structural colors. This photonic crystal is composed of a colloidal nanosheet in water, which spontaneously adopts a layered structure with single periodicity (407 nm). After a temperature‐gradient treatment, the photonic crystal segregates into two regions with shrunken (385 nm) and expanded (448 nm) periodicities, and thus exhibits double reflection peaks that are blue‐ and red‐shifted from the original one, respectively. Notably, the transition between the single‐peak and double‐peak states is reversible. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Rapid, solvent-minimized and sustainable access to various types of ferroelectric-fluid molecules by harnessing mechano-chemical technology.

Author

Nishikawa, Hiroya, Kuwayama, Motonobu, Nihonyanagi, Atsuko, Dhara, Barun, and Araoka, Fumito

Abstract

Recently, ferroelectric fluid, such as ferroelectric nematic liquid crystals (NFLCs) and ferroelectric smectic A LCs (SmAFLCs), has been of great fundamental and practical interest owing to its excellent polarization properties (e.g., dielectric permittivity, polarization, and nonlinear optical coefficient). To deeply understand the physical underpinning of such emergent ferroelectric phases and develop state-of-the-art device applications, effective preparation of various NF molecules is essential. Herein, to expand the NFLC molecular library, we implemented a mechanochemical (MC) technique for the production of LCs, demonstrating its high synthetic compatibility with NF/SmAFLCs. Chemical building blocks with high polarity can be bonded one by one through various ball-milling MC reactions, resulting in rapid access to NFLC molecules, a series of DIO, RM734, UUZU, and BIOTN, with high yield within 2.7–7 h for 4–8 steps. For a new DIO variant, in which a terminal alkyl chain was completely removed, for the first time, we discovered the direct phase transition from the isotropic liquid to the SmAF phase. Furthermore, the highly bistable polarization memory (∼5.2 μC cm−2) in the SmAF phases was evaluated using the positive–up–negative–down (PUND) method. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Photo-reconfigurable twisting structure in chiral liquid crystals triggered by photoresponsive surface.

Author

Kougo, Junichi, Araoka, Fumito, Haba, Osamu, Yonetake, Koichiro, and Aya, Satoshi

Subjects
*LIQUID crystals, *AZOBENZENE, *ANISOTROPY, *TOPOLOGY, *LIQUIDS
Abstract

Shape-transformable molecular additives with photoresponsivity, such as azobenzene or spiropyran, in matter are known to decrease the local order parameter and lead to drastic state variations under light irradiation. For example, a liquid crystalline state can be transformed to an isotropic liquid state by photo-exciting a tiny amount of azobenzene additives from trans- to cis-conformers. On the other hand, structural or shape transformation without changing the phase state is also intriguing since it offers an opportunity for manipulating specific structures. Here, we demonstrate an active control of the topology of chiral particle-like twisting structures, dubbed toron, by light. Interestingly, the individual twisting structure is fully reconfigurable between spherical and unique branched topological states. We reveal that the shape transformation is driven by the free-energy competition between the variation of surface anchoring strength and the elastic energy stored in the twisting structure. The mean-field simulation based on the Landau–de Gennes framework shows that the elastic anisotropy plays the dominant role in modifying the toron topology upon weak anchoring. The results offer a new path for understanding the process of topology-involved shape transformation and fabrication of novel functional materials. [ABSTRACT FROM AUTHOR]

Published
2021
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32. Erratum: "Photo-reconfigurable twisting structure in chiral liquid crystals triggered by photoresponsive surface" [J. Chem. Phys. 155, 061101 (2021)].

Author

Kougo, Junichi, Araoka, Fumito, Haba, Osamu, Yonetake, Koichiro, and Aya, Satoshi

Subjects
*LIQUID crystals, *CHOLESTERIC liquid crystals
Abstract

Wrong description in the original manuscript: HT s *->[10-6 s ] ht . The authors used the same abbreviation I i for the azimuthal angle of the director and the spatial parameter on the cylindrical coordinates. Correct description: HT s *->[10-2 s ] ht . [Extracted from the article]

Published
2022
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46. Anomalous Chiral Transfer: Supramolecular Polymerization in a Chiral Medium of a Mesogenic Molecule.

Author

Zhang, Xu‐Jie, Morishita, Daiki, Aoki, Tsubasa, Itoh, Yoshimitsu, Yano, Keiichi, Araoka, Fumito, and Aida, Takuzo

Subjects
SUPRAMOLECULAR polymers, OPTICAL rotation, MOLECULES, MONOMERS, POLYMERIZATION
Abstract

Here, we report a medium‐to‐polymer anomalous chiral transfer in the supramolecular polymerization of a tetraphenylporphyrin‐based achiral hydrogen‐bonding monomer (TPP) in a chiral medium of 5‐cyanobiphenyl CB*. A mixture of TPP in (R)‐CB* ([TPP]=7.7 mol %) at 40 °C gave a columnar oblique LC mesophase, where the individual columns were composed of an optically active helical supramolecular polymer of TPP as a consequence of a successful medium‐to‐polymer chiral transfer. Meanwhile, upon dilution of CB* with achiral 5‐cyanobiphenyl CB, the optical activity of the system showed an anomalous bell‐shaped dependency on the composition of CB*/CB, where the gabs value of 0.049 at CB*/CB=50/50 was 6.0 times larger than the gabs value of CB* alone. Such anomalous chiroptical amplification in CD is most likely due to a change in the stacking geometry of TPP in the oblique columnar LC upon lateral compression. [ABSTRACT FROM AUTHOR]

Published
2022
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