Deep-ultraviolet nonlinear optical crystals: concept development and materials discovery

Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental explo...

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Published inLight, science & applications Vol. 11; no. 1; p. 201
Main Authors Kang, Lei, Lin, Zheshuai
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.07.2022
Springer Nature B.V
Nature Publishing Group
Subjects
119/118
639/624/399
639/766/400/385
Crystals
Lasers
Microwaves
Optical and Electronic Materials
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
Review
Review Article
Reviews
RF and Optical Engineering
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Abstract Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental exploration and theoretical design in the field of DUV NLO crystals over the past three decades. In-depth insight into “structure-property correlations”, in particular, allows for rigorous and precise identification of DUV NLO crystals. In this article, we reviewed the current experimental and theoretical research progress while elucidating the core concepts and stringent criteria of qualified DUV phase-matched second-harmonic generation crystals. We also discussed the development of the DUV NLO “structure-property correlations” from first principles and how it has sparked interest in related materials, as well as future directions for obtaining potential DUV NLO crystals. Structure-property correlations and related materials discovery of deep-ultraviolet nonlinear optical crystals are reviewed while elucidating the core concepts and stringent criteria.
AbstractList Abstract Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental exploration and theoretical design in the field of DUV NLO crystals over the past three decades. In-depth insight into “structure-property correlations”, in particular, allows for rigorous and precise identification of DUV NLO crystals. In this article, we reviewed the current experimental and theoretical research progress while elucidating the core concepts and stringent criteria of qualified DUV phase-matched second-harmonic generation crystals. We also discussed the development of the DUV NLO “structure-property correlations” from first principles and how it has sparked interest in related materials, as well as future directions for obtaining potential DUV NLO crystals.
Deep-ultraviolet (DUV, wavelength λ < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental exploration and theoretical design in the field of DUV NLO crystals over the past three decades. In-depth insight into "structure-property correlations", in particular, allows for rigorous and precise identification of DUV NLO crystals. In this article, we reviewed the current experimental and theoretical research progress while elucidating the core concepts and stringent criteria of qualified DUV phase-matched second-harmonic generation crystals. We also discussed the development of the DUV NLO "structure-property correlations" from first principles and how it has sparked interest in related materials, as well as future directions for obtaining potential DUV NLO crystals.
Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental exploration and theoretical design in the field of DUV NLO crystals over the past three decades. In-depth insight into “structure-property correlations”, in particular, allows for rigorous and precise identification of DUV NLO crystals. In this article, we reviewed the current experimental and theoretical research progress while elucidating the core concepts and stringent criteria of qualified DUV phase-matched second-harmonic generation crystals. We also discussed the development of the DUV NLO “structure-property correlations” from first principles and how it has sparked interest in related materials, as well as future directions for obtaining potential DUV NLO crystals. Structure-property correlations and related materials discovery of deep-ultraviolet nonlinear optical crystals are reviewed while elucidating the core concepts and stringent criteria.
Deep-ultraviolet (DUV, wavelength λ < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays an important role in cutting-edge laser technology and fundamental science. Significant progress has been made in both experimental exploration and theoretical design in the field of DUV NLO crystals over the past three decades. In-depth insight into “structure-property correlations”, in particular, allows for rigorous and precise identification of DUV NLO crystals. In this article, we reviewed the current experimental and theoretical research progress while elucidating the core concepts and stringent criteria of qualified DUV phase-matched second-harmonic generation crystals. We also discussed the development of the DUV NLO “structure-property correlations” from first principles and how it has sparked interest in related materials, as well as future directions for obtaining potential DUV NLO crystals.Structure-property correlations and related materials discovery of deep-ultraviolet nonlinear optical crystals are reviewed while elucidating the core concepts and stringent criteria.
Structure-property correlations and related materials discovery of deep-ultraviolet nonlinear optical crystals are reviewed while elucidating the core concepts and stringent criteria.
ArticleNumber 201
Author Lin, Zheshuai
Kang, Lei
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  surname: Lin
  fullname: Lin, Zheshuai
  email: zslin@mail.ipc.ac.cn
  organization: Functional Crystals Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences
BackLink https://www.ncbi.nlm.nih.gov/pubmed/35778386$$D View this record in MEDLINE/PubMed
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Snippet Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays...
Deep-ultraviolet (DUV, wavelength λ < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser, which plays...
Abstract Deep-ultraviolet (DUV, wavelength λ  < 200 nm) nonlinear optical (NLO) crystal is the core component of frequency conversion to generate DUV laser,...
Structure-property correlations and related materials discovery of deep-ultraviolet nonlinear optical crystals are reviewed while elucidating the core concepts...
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SubjectTerms 119/118
639/624/399
639/766/400/385
Crystals
Lasers
Microwaves
Optical and Electronic Materials
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
Review
Review Article
Reviews
RF and Optical Engineering
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Title Deep-ultraviolet nonlinear optical crystals: concept development and materials discovery
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