Molecular Structures and Second-Order Nonlinear Optical Properties of Ionic Organic Crystal Materials

Liu, Xiu; Yang, Zhou; Wang, Dong; Cao, Hui

doi:10.3390/cryst6120158

Cited by 100 publications

(50 citation statements)

References 73 publications

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“…Additional to the much superior temporal stability of crystals compared to poled polymers, their photochemical stability may be better by several orders of magnitude [29], which is particularly important for THz-wave applications, where high optical power densities are used and therefore a high damage threshold is required. On the other hand, only a very small ratio of known chromophores can crystallize in a non-centrosymmetric crystalline space group and there seems to be a limit in the conjugation length (i.e., the first hyperpolarizability strength β) that can still lead to a non-centrosymmetric alignment [15,30]. The chromophores, besides having a large β, need to be usually specially designed to promote a non-centrosymmetric alignment [15,30].…”

Section: Organic Single Crystalline Materialsmentioning

confidence: 99%

Organic Crystals for THz Photonics

et al. 2019

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Organic crystals with second-order optical nonlinearity feature very high and ultra-fast optical nonlinearities and are therefore attractive for various photonics applications. During the last decade, they have been found particularly attractive for terahertz (THz) photonics. This is mainly due to the very intense and ultra-broadband THz-wave generation possible with these crystals. We review recent progress and challenges in the development of organic crystalline materials for THz-wave generation and detection applications. We discuss their structure, intrinsic properties, and advantages compared to inorganic alternatives. The characteristic properties of the most widely employed organic crystals at present, such as DAST, DSTMS, OH1, HMQ-TMS, and BNA are analyzed and compared. We summarize the most important principles for THz-wave generation and detection, as well as organic THz-system configurations based on either difference-frequency generation or optical rectification. In addition, we give state-of-the-art examples of very intense and ultra-broadband THz systems that rely on organic crystals. Finally, we present some recent breakthrough demonstrations in nonlinear THz photonics enabled by very intense organic crystalline THz sources, as well as examples of THz spectroscopy and THz imaging using organic crystals as THz sources for various scientific and technological applications.

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Section: Organic Single Crystalline Materialsmentioning

confidence: 99%

Organic Crystals for THz Photonics

et al. 2019

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“…For a similar condition in batch cooling crystallization (with initial temperature of 35 • C and final temperature of 20 • C) [59], crystals with an average size of circa 600 µm were generated after 20 min to 6 h [60,61], and here, only 10 min were needed. Although glycine was the compound used here, a similar strategy (e.g., suppressing secondary nucleation) may potentially help generate large crystals of other compounds [62][63][64][65][66][67][68][69][70][71][72].…”

Section: Suppressing Secondary Nucleation For Crystal Growth In Slug mentioning

confidence: 99%

Continuous Generation of Millimeter-Sized Glycine Crystals in Non-Seeded Millifluidic Slug Flow

Mou

Yang

et al. 2019

Crystals

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Millimeter-sized α-glycine crystals were generated from continuous non-seeded cooling crystallization in slug flow. The crystallization process is composed of three steps in sequence: slug formation, crash-cooling nucleation, and growth. Stable uniform slugs of three different aspect ratios (slug length/tubing inner diameter) were formed, by adjusting the flow rates of both the solution and air streams. Besides supersaturation, the slug aspect ratio can also affect primary nucleation outcome. Stable slug flow can accommodate a relative supersaturation (C/C*) of up to 1.5 without secondary nucleation. Large glycine crystals can grow to millimeter size within 10 min, inside millimeter-sized slugs without reducing the slug quality.

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“…Double 5B-groups <3B>-<3B> composed of two 3B-rings via a common tetrahedron (see Figure 1, 5B) occur quite frequently for instance 5B:4∆1 :<2∆ >-<2∆ > in K[B 5 Thermal variations of B-O-B angles. As defined in Section 2.1 a rigid group is devoid of internal degrees of freedom whilst the external degrees of freedom of a rigid group change as impact on temperature.…”

Section: Systematic Variations With Temperature Of Boron-oxygen Bond mentioning

confidence: 99%

“…Studies have shown that the second-order NLO properties of crystalline materials are closely related to their structures. Tens of inorganic and organic ( [2][3][4][5], and Refs therein) crystals with NLO properties were identified, and their crystal structures, micro-structures, and various properties were studied. Nevertheless, there is growing interest in the search for new, prospective NLO materials due to the widening technical applications as a result of the replacement of gaseous and ionic laser sources with solid lasers.…”

Section: Introductionmentioning

confidence: 99%

Borates—Crystal Structures of Prospective Nonlinear Optical Materials: High Anisotropy of the Thermal Expansion Caused by Anharmonic Atomic Vibrations

et al. 2017

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Abstract:In the present study the thermal structure evolution is reviewed for known nonlinear optical borates such as β- (98-348 K). In addition to the established criteria for nonlinear optical (NLO) properties of crystals, here the role of the anisotropy and anharmonicity of the thermal vibrations of atoms is analysed as well as changes in their coordination spheres and the anisotropy of the thermal expansion of the crystal structure. Non-centrosymmetric borates, especially those that have NLO properties, often show distinct anisotropies for each cation in comparison to centrosymmetric borates. All considered NLO borates contain BO 3 triangles, which are the principal cause of the strong anisotropy of the thermal expansion.Keywords: NLO borates; crystal structures at low and high temperatures; rigid boron-oxygen groups; anisotropic and anharmonic atomic vibrations; thermal expansion; low-and high-temperature single-crystal and powder X-ray diffraction

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Molecular Structures and Second-Order Nonlinear Optical Properties of Ionic Organic Crystal Materials

Cited by 100 publications

References 73 publications

Organic Crystals for THz Photonics

Organic Crystals for THz Photonics

Continuous Generation of Millimeter-Sized Glycine Crystals in Non-Seeded Millifluidic Slug Flow

Borates—Crystal Structures of Prospective Nonlinear Optical Materials: High Anisotropy of the Thermal Expansion Caused by Anharmonic Atomic Vibrations

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