Tripling the maximum imaging depth with third-harmonic generation microscopy
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[1] Virginijus Barzda,et al. Visualization of mitochondria in cardiomyocytes by simultaneous harmonic generation and fluorescence microscopy. , 2005, Optics express.
[2] Chi-Kuang Sun,et al. In vivo and ex vivo imaging of intra-tissue elastic fibers using third-harmonic-generation microscopy. , 2007, Optics express.
[3] Chris B Schaffer,et al. In vivo imaging of myelin in the vertebrate central nervous system using third harmonic generation microscopy. , 2011, Biophysical journal.
[4] S. Jacques. Optical properties of biological tissues: a review , 2013, Physics in medicine and biology.
[5] N. Nishimura,et al. Deep tissue multiphoton microscopy using longer wavelength excitation. , 2009, Optics express.
[6] Cesar Jauregui,et al. High-power fibre lasers , 2013 .
[7] Adela Ben-Yakar,et al. Maximum imaging depth of two-photon autofluorescence microscopy in epithelial tissues. , 2011, Journal of biomedical optics.
[8] Tsung-Han Tsai,et al. Higher harmonic generation microscopy for developmental biology. , 2004, Journal of structural biology.
[9] S. Warren,et al. Optical constants of ice from the ultraviolet to the microwave. , 1984, Applied optics.
[10] K Bahlmann,et al. Three-photon excitation in fluorescence microscopy. , 1996, Journal of biomedical optics.
[11] Christophe Odin,et al. Spatially distributed two-photon excitation fluorescence in scattering media: Experiments and time-resolved Monte Carlo simulations , 2007 .
[12] Winfried Denk,et al. On the fundamental imaging-depth limit in two-photon microscopy , 2004, SPIE Photonics Europe.
[13] S W Hell,et al. Ca2+ fluorescence imaging with pico- and femtosecond two-photon excitation: signal and photodamage. , 1999, Biophysical journal.
[14] K. König,et al. Cell damage by near-IR microbeams , 1995, Nature.
[15] Ulrich Pohl,et al. Label-Free 3D Visualization of Cellular and Tissue Structures in Intact Muscle with Second and Third Harmonic Generation Microscopy , 2011, PloS one.
[16] D Yelin,et al. Laser scanning third-harmonic-generation microscopy in biology. , 1999, Optics express.
[17] Ingmar Hartl,et al. Ultrafast fibre lasers , 2013, Nature Photonics.
[18] F. Wise,et al. In vivo three-photon microscopy of subcortical structures within an intact mouse brain , 2012, Nature Photonics.
[19] Karsten Plamann,et al. Harmonic microscopy of isotropic and anisotropic microstructure of the human cornea. , 2010, Optics express.
[20] W. Dewey,et al. Cellular responses to combinations of hyperthermia and radiation. , 1977, Radiology.
[21] Nektarios Tavernarakis,et al. In vivo imaging of neurodegeneration in Caenorhabditis elegans by third harmonic generation microscopy , 2008, Journal of microscopy.
[22] D. Débarre,et al. Signal epidetection in third-harmonic generation microscopy of turbid media. , 2007, Optics express.
[23] Zhixiong Guo,et al. ULTRAFAST RADIATION HEAT TRANSFER IN LASER TISSUE WELDING AND SOLDERING , 2004 .
[24] Chi-Kuang Sun,et al. In vivo optical biopsy of hamster oral cavity with epi-third-harmonic-generation microscopy. , 2006, Optics express.
[25] Lu Wei,et al. Stimulated emission reduced fluorescence microscopy: a concept for extending the fundamental depth limit of two-photon fluorescence imaging , 2012, Biomedical optics express.
[26] D. J. Segelstein. The complex refractive index of water , 1981 .
[27] M. K. Moallemi,et al. Experimental evidence of hyperbolic heat conduction in processed meat , 1995 .
[28] David Kleinfeld,et al. MPScope: A versatile software suite for multiphoton microscopy , 2006, Journal of Neuroscience Methods.
[29] J. Kobler,et al. Quantitative and Comparative Studies of the Vocal Fold Extracellular Matrix I: Elastic Fibers and Hyaluronic Acid , 2006, The Annals of otology, rhinology, and laryngology.
[30] Tsung-Han Tsai,et al. Optical biopsy of fixed human skin with backward-collected optical harmonics signals. , 2005, Optics express.
[31] Adela Ben-Yakar,et al. A 5-mm piezo-scanning fiber device for high speed ultrafast laser microsurgery. , 2014, Biomedical optics express.
[32] Winfried Denk,et al. On the fundamental imaging-depth limit in two-photon microscopy , 2006 .
[33] P. Prasad,et al. Observation of stimulated emission by direct three-photon excitation , 2002, Nature.
[34] S. A. Prahl,et al. A Monte Carlo model of light propagation in tissue , 1989, Other Conferences.
[35] Kyunghan Kim,et al. Bio-heat transfer analysis during short pulse laser irradiation of tissues , 2008 .
[36] Leslie M Loew,et al. Second-harmonic imaging microscopy for visualizing biomolecular arrays in cells, tissues and organisms , 2003, Nature Biotechnology.
[37] Adela Ben-Yakar,et al. Parameters affecting ultrafast laser microsurgery of subepithelial voids for scar treatment in vocal folds , 2013, Journal of biomedical optics.
[38] Yaron Silberberg,et al. Nonlinear scanning laser microscopy by third harmonic generation , 1997 .
[39] W. Webb,et al. Nonlinear magic: multiphoton microscopy in the biosciences , 2003, Nature Biotechnology.
[40] Wilson,et al. 3D microscopy of transparent objects using third‐harmonic generation , 1998, Journal of microscopy.
[41] Lu Wei,et al. Extending the fundamental imaging-depth limit of multi-photon microscopy by imaging with photo-activatable fluorophores. , 2012, Optics express.
[42] Tsung-Han Tsai,et al. In vivo developmental biology study using noninvasive multi-harmonic generation microscopy. , 2003, Optics express.
[43] Kyunghan Kim,et al. Multi-time-scale heat transfer modeling of turbid tissues exposed to short-pulsed irradiations , 2007, Comput. Methods Programs Biomed..
[44] A. Vogel,et al. Mechanisms of femtosecond laser nanosurgery of cells and tissues , 2005 .
[45] J. Kobler,et al. Quantitative and Comparative Studies of the Vocal Fold Extracellular Matrix II: Collagen , 2006, The Annals of otology, rhinology, and laryngology.
[46] Jerome Mertz,et al. Ultra-deep two-photon fluorescence excitation in turbid media , 2001 .
[47] R. Anderson,et al. Foresight in Laryngology and Laryngeal Surgery: A 2020 Vision , 2007, The Annals of otology, rhinology & laryngology. Supplement.
[48] J. L. Roti,et al. Cellular responses to hyperthermia (40-46°C) : Cell killing and molecular events , 2008 .
[49] P. Wiseman,et al. Sensitive detection of malaria infection by third harmonic generation imaging. , 2008, Biophysical journal.
[50] William A Mohler,et al. Three-dimensional high-resolution second-harmonic generation imaging of endogenous structural proteins in biological tissues. , 2002, Biophysical journal.
[51] A. Fabre,et al. Imaging lipid bodies in cells and tissues using third-harmonic generation microscopy , 2005, Nature Methods.
[52] Tsung-Han Tsai,et al. Multiharmonic-generation biopsy of skin. , 2003, Optics letters.
[53] Towards endoscopic ultrafast laser microsurgery of vocal folds. , 2012, Journal of biomedical optics.
[54] W. Webb,et al. Live tissue intrinsic emission microscopy using multiphoton-excited native fluorescence and second harmonic generation , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[55] James B. Kobler,et al. Clinical Ultrafast Laser Surgery: Recent Advances and Future Directions , 2014, IEEE Journal of Selected Topics in Quantum Electronics.