Semiconductor Optoelectronics, Volume. 43, Issue 5, 1005(2022)
Research on Femtosecond Two-Photon Fluorescence Microscopy of Rhodamine B
[1] [1] Helmchen F, Denk W. Deep tissue two-photon microscopy[J]. Nature Methods, 2005, 2(12): 932-940.
[2] [2] Bird D, Gu M. Two-photon fluorescence endoscopy with a micro-optic scanning head[J]. Opt. Lett., 2003, 28(17): 1552-1554.
[3] [3] Flusberg B A, Jung J C, Cocker E D, et al. In vivo brain imaging using a portable 3.9? gram two-photon fluorescence microendoscope[J]. Opt. Lett., 2005, 30(17): 2272-2274.
[4] [4] Knig K, Riemann I, Ehlers A, et al. In vivo multiphoton tomography of skin cancer[J]. Proc. SPIE, 2006, 6089: 118-124.
[5] [5] Denk W, Strickler J H, Webb W W. Two-photon laser scanning fluorescence microscopy[J]. Science, 1990, 248(4951): 73-76.
[6] [6] Kim K H, Buehler C, So P T C. High-speed, two-photon scanning microscope[J]. Appl. Opt., 1999, 38(28): 6004-6009.
[7] [7] Ota K, Oisi Y, Suzuki T, et al. Fast scanning high optical invariant two-photon microscopy for monitoring a large neural network activity with cellular resolution[J]. bioRxiv, 2020: doi.org/10.1101/2020.07.14.201699.
[8] [8] Sakaki K D R, Podgorski K, Dellazizzo Toth T A, et al. Comprehensive imaging of sensory-evoked activity of entire neurons within the awake developing brain using ultrafast AOD-based random-access two-photon microscopy[J]. Frontiers in Neural Circuits, 2020, 14: 33.
[9] [9] Cheng A, Gonalves J T, Golshani P, et al. Simultaneous two-photon calcium imaging at different depths with spatiotemporal multiplexing[J]. Nature Methods, 2011, 8(2): 139-142.
[10] [10] Tsai Y H, Liu C W, Lin W K, et al. Two-photon microscopy at >500 volumes/second[J]. bioRxiv, 2020: doi.org/10.1101/2020.10.21.349712.
[11] [11] Ching-Roa V D, Olson E M, Ibrahim S F, et al. Ultrahigh-speed point scanning two-photon microscopy using high dynamic range silicon photomultipliers[J]. Scientific Reports, 2021, 11(1): 1-12.
[12] [12] Kobat D, Horton N G, Xu C. In vivo two-photon microscopy to 1.6-mm depth in mouse cortex[J]. J. of Biomedical Optics, 2011, 16(10): 106014.
[13] [13] Hou G, Dong Z, Zhang S, et al. TPF imaging of Rhodamine B at different detection windows[J]. Modern Phys. Lett. B, 2019, 33(23): 1950268.
[14] [14] Yamaguchi K, Kitamura R, Kawakami R, et al. In vivo two-photon microscopic observation and ablation in deeper brain regions realized by modifications of excitation beam diameter and immersion liquid[J]. Public Library of Science (PLOS), 2020, 15(8): e0237230.
[15] [15] Cheng L C, Lien C H, Da Sie Y, et al. Nonlinear structured-illumination enhanced temporal focusing multiphoton excitation microscopy with a digital micromirror device[J]. Biomedical Opt. Express, 2014, 5(8): 2526-2536.
[16] [16] Ye S, Yin Y, Yao J, et al. Axial resolution improvement of two-photon microscopy by multi-frame reconstruction and adaptive optics[J]. Biomedical Opt. Express, 2020, 11(11): 6634-6648.
[17] [17] Qin Z, He S, Yang C, et al. Adaptive optics two-photon microscopy enables near-diffraction-limited and functional retinal imaging in vivo[J]. Light: Science & Applications, 2020, 9(1): 1-11.
[18] [18] He H, Kong C, Chan K Y, et al. Resolution enhancement in an extended depth of field for volumetric two-photon microscopy[J]. Opt. Lett., 2020, 45(11): 3054-3057.
[19] [19] Pope I, Langbein W, Watson P, et al. Simultaneous hyperspectral differential-CARS, TPF and SHG microscopy with a single 5fs Ti∶Sa laser[J]. Opt. Express, 2013, 21(6): 7096-7106.
[20] [20] Rakhymzhan A, Reuter L, Raspe R, et al. Coregistered spectral optical coherence tomography and two-photon microscopy for multimodal near-instantaneous deep-tissue imaging[J]. Cytometry Part A, 2020, 97(5): 515-527.
[21] [21] Xu D, Liang S, Xu L, et al. Widely-tunable synchronisation-free picosecond laser source for multimodal CARS, SHG, and two-photon microscopy[J]. Biomedical Opt. Express, 2021, 12(2): 1010-1019.
[22] [22] Wang S, Qin Y, Guo M, et al. High speed 3D two-photon fluorescence microscopy by femtosecond laser pulses[C]// LIDAR Imaging Detection and Target Recognition 2017 Inter. Society for Optics and Photonics, 2017, 10605: 106053J.
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ZHANG Ning, HOU Guozhong, DENG Yanyan, ZHANG Ze, ZHANG Delin, WANG Yulei, LV Zhiwei, XIA Yuanqin. Research on Femtosecond Two-Photon Fluorescence Microscopy of Rhodamine B[J]. Semiconductor Optoelectronics, 2022, 43(5): 1005
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Received: Apr. 13, 2022
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Published Online: Jan. 27, 2023
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