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Nonlinear Optical Polarization Analysis in Chemistry and Biology
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  • Cited by 4
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    This book has been cited by the following publications. This list is generated based on data provided by CrossRef.

    Simpson, Garth J. Ding, Changqin Ulcickas, James R. Brown, Thomas G. Cogswell, Carol J. and Wilson, Tony 2018. Spatiotemporal polarization modulation microscopy with a microretarder array. p. 32.

    Johansson, Patrik K. Schmüser, Lars and Castner, David G. 2018. Nonlinear Optical Methods for Characterization of Molecular Structure and Surface Chemistry. Topics in Catalysis, Vol. 61, Issue. 9-11, p. 1101.

    Simpson, Garth J. Ding, Changqin Ulcickas, James R. W. Mahadevan-Jansen, Anita and Petrich, Wolfgang 2018. Dynamic sparse sampling in Raman imaging. p. 21.

    Chowdhury, Azhad U. Ye, Dong Hye Song, Zhengtian Zhang, Shijie Hedderich, Hartmut G. Mallick, Babita Thirunahari, Satyanarayana Ramakrishnan, Srividya Sengupta, Atanu Gualtieri, Ellen J. Bouman, Charles A. and Simpson, Garth J. 2017. Second Harmonic Generation Guided Raman Spectroscopy for Sensitive Detection of Polymorph Transitions. Analytical Chemistry, Vol. 89, Issue. 11, p. 5958.

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    Nonlinear Optical Polarization Analysis in Chemistry and Biology
    • Online ISBN: 9781139019026
    • Book DOI: https://doi.org/10.1017/9781139019026
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Book description

This rigorous yet accessible guide presents a molecular-based description of nonlinear optical polarization analysis of chemical and biological assemblies. It includes discussion of the most common nonlinear optical microscopy and interfacial measurements used for quantitative analysis, specifically second harmonic generation (SHG), two-photon excited fluorescence (2PEF), vibrational sum frequency generation (SFG), and coherent anti-Stokes Raman spectroscopy/stimulated Raman spectroscopy (CARS/SRS). A linear algebra mathematical framework is developed, allowing step-wise systematic connections to be made between the observable measurements and the molecular response. Effects considered include local field corrections, the molecular orientation distribution, rotations between the molecular frame, the local frame and the laboratory frame, and simplifications from molecular and macromolecular symmetry. Specific examples are provided throughout the book, working from the common and relatively simple case studies through to the most general scenarios.

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