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W2006620437 abstract "Optical imaging plays a major role in both basic biological research and clinical diagnostics, providing noninvasive or minimally invasive microscopic imaging capability to investigate biological tissues. Optical image acquisition through significant depths of biological tissues, however, presents a major challenge since tissue is extremely heterogeneous and the strong scattering of the various tissue components has restricted high-resolution optical imaging to superficial layers. Multiphoton microscopy (MPM) has significantly extended the penetration depth of high-resolution optical imaging, particularly for in vivo applications. Multiphoton imaging critically depends on ultrafast technologies, particularly pulsed excitation sources. In this paper, the basics of deep tissue MPM and its improvements utilizing soliton self-frequency shift (SSFS) are reviewed. Wavelength tunable, high-energy soliton generation through SSFS in large-mode-area (LMA) fibers and photonic crystal rods is presented. The application of these solitons to MPM enables noninvasive imaging in biological tissues with unprecedented depth. The main characteristics of the excitation source for deep tissue MPM, such as wavelength, pulse energy, and repetition rate, are discussed." @default.
W2006620437 created "2016-06-24" @default.
W2006620437 creator A5046510603 @default.
W2006620437 creator A5077272698 @default.
W2006620437 creator A5086032314 @default.
W2006620437 creator A5088684567 @default.
W2006620437 date "2014-03-01" @default.
W2006620437 modified "2023-10-02" @default.
W2006620437 title "Advanced Fiber Soliton Sources for Nonlinear Deep Tissue Imaging in Biophotonics" @default.
W2006620437 cites W1497184341 @default.
W2006620437 cites W1564321524 @default.
W2006620437 cites W1817841038 @default.
W2006620437 cites W1963792424 @default.
W2006620437 cites W1966187182 @default.
W2006620437 cites W1968583650 @default.
W2006620437 cites W1977786555 @default.
W2006620437 cites W1979096832 @default.
W2006620437 cites W1980020242 @default.
W2006620437 cites W1980285018 @default.
W2006620437 cites W1982918139 @default.
W2006620437 cites W1985450720 @default.
W2006620437 cites W1989919875 @default.
W2006620437 cites W1990450423 @default.
W2006620437 cites W1996245575 @default.
W2006620437 cites W2003591702 @default.
W2006620437 cites W2006744863 @default.
W2006620437 cites W2011380505 @default.
W2006620437 cites W2011985633 @default.
W2006620437 cites W2022817606 @default.
W2006620437 cites W2023639738 @default.
W2006620437 cites W2031671212 @default.
W2006620437 cites W2034514037 @default.
W2006620437 cites W2036654202 @default.
W2006620437 cites W2040320086 @default.
W2006620437 cites W2045914027 @default.
W2006620437 cites W2047820651 @default.
W2006620437 cites W2048408635 @default.
W2006620437 cites W2049092760 @default.
W2006620437 cites W2051764074 @default.
W2006620437 cites W2059409532 @default.
W2006620437 cites W2061036541 @default.
W2006620437 cites W2061464631 @default.
W2006620437 cites W2064804364 @default.
W2006620437 cites W2069954000 @default.
W2006620437 cites W2072692505 @default.
W2006620437 cites W2073794272 @default.
W2006620437 cites W2074786533 @default.
W2006620437 cites W2076073953 @default.
W2006620437 cites W2076859653 @default.
W2006620437 cites W2080523117 @default.
W2006620437 cites W2081078629 @default.
W2006620437 cites W2088439093 @default.
W2006620437 cites W2089140615 @default.
W2006620437 cites W2092193392 @default.
W2006620437 cites W2092931765 @default.
W2006620437 cites W2093019726 @default.
W2006620437 cites W2093392016 @default.
W2006620437 cites W2093863044 @default.
W2006620437 cites W2094356350 @default.
W2006620437 cites W2097905352 @default.
W2006620437 cites W2105201824 @default.
W2006620437 cites W2105986707 @default.
W2006620437 cites W2112791649 @default.
W2006620437 cites W2113553624 @default.
W2006620437 cites W2113870077 @default.
W2006620437 cites W2117940227 @default.
W2006620437 cites W2120435564 @default.
W2006620437 cites W2130010119 @default.
W2006620437 cites W2132381902 @default.
W2006620437 cites W2136537123 @default.
W2006620437 cites W2140511972 @default.
W2006620437 cites W2147211249 @default.
W2006620437 cites W2150708165 @default.
W2006620437 cites W2153596429 @default.
W2006620437 cites W2156257772 @default.
W2006620437 cites W2157896486 @default.
W2006620437 cites W2157953565 @default.
W2006620437 cites W2162314466 @default.
W2006620437 cites W2169119609 @default.
W2006620437 cites W4290694354 @default.
W2006620437 doi "https://doi.org/10.1109/jstqe.2013.2276860" @default.
W2006620437 hasPublicationYear "2014" @default.
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