Bibliografías temáticas / Synthetic aperture microscopy / Artículos de revistas

Artículos de revistas sobre el tema "Synthetic aperture microscopy"

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Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 12 de febrero de 2022

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1

Ralston, Tyler S., Daniel L. Marks, P. Scott Carney y Stephen A. Boppart. "Interferometric synthetic aperture microscopy". Nature Physics 3, n.º 2 (21 de enero de 2007): 129–34. http://dx.doi.org/10.1038/nphys514.

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2

De Cai, De Cai, Zhongfei Li Zhongfei Li y Sung-Liang Chen Sung-Liang Chen. "Photoacoustic microscopy by scanning mirror-based synthetic aperture focusing technique". Chinese Optics Letters 13, n.º 10 (2015): 101101–4. http://dx.doi.org/10.3788/col201513.101101.

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3

Ralston, T. S., G. L. Charvat, S. G. Adie, B. J. Davis, P. S. Carney y S. A. Boppart. "Interferometric Synthetic Aperture Microscopy: Microscopic Laser Radar". Optics and Photonics News 21, n.º 6 (1 de junio de 2010): 32. http://dx.doi.org/10.1364/opn.21.6.000032.

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4

Xu, Yang, Xiong Kai Benjamin Chng, Steven G. Adie, Stephen A. Boppart y P. Scott Carney. "Multifocal interferometric synthetic aperture microscopy". Optics Express 22, n.º 13 (27 de junio de 2014): 16606. http://dx.doi.org/10.1364/oe.22.016606.

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5

Tu, Han Yen, Yueh Long Lee y Chau Jern Cheng. "Super-Resolution Imaging in a Close-Packed Synthetic Aperture Digital Holographic Microscopy". Applied Mechanics and Materials 404 (septiembre de 2013): 490–94. http://dx.doi.org/10.4028/www.scientific.net/amm.404.490.

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This work presents a close-packed synthetic aperture method for superresolution imaging in digital holographic microscopy. The superresolution imaging technique is based on beam-rotation approach to collect the different bandpass spectrum of the sample. The close-packed information from synthetic aperture process can be used to enhance the reconstructed imaging resolution under low-numerical-aperture microscope objective. Simulated and experimental results show the characteristics of the close-packed synthetic aperture and the influence on superresolution imaging.
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6

South, Fredrick A., Yuan-Zhi Liu, Yang Xu, Nathan D. Shemonski, P. Scott Carney y Stephen A. Boppart. "Polarization-sensitive interferometric synthetic aperture microscopy". Applied Physics Letters 107, n.º 21 (23 de noviembre de 2015): 211106. http://dx.doi.org/10.1063/1.4936236.

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7

Luo, Wei, Alon Greenbaum, Yibo Zhang y Aydogan Ozcan. "Synthetic aperture-based on-chip microscopy". Light: Science & Applications 4, n.º 3 (marzo de 2015): e261-e261. http://dx.doi.org/10.1038/lsa.2015.34.

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8

Ralston, Tyler S., Daniel L. Marks, P. Scott Carney y Stephen A. Boppart. "Real-time interferometric synthetic aperture microscopy". Optics Express 16, n.º 4 (11 de febrero de 2008): 2555. http://dx.doi.org/10.1364/oe.16.002555.

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9

Davis, Brynmor, Daniel Marks, Tyler Ralston, P. Carney y Stephen Boppart. "Interferometric Synthetic Aperture Microscopy: Computed Imaging for Scanned Coherent Microscopy". Sensors 8, n.º 6 (11 de junio de 2008): 3903–31. http://dx.doi.org/10.3390/s8063903.

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10

Coquoz, Séverine, Arno Bouwens, Paul J. Marchand, Jérôme Extermann y Theo Lasser. "Interferometric synthetic aperture microscopy for extended focus optical coherence microscopy". Optics Express 25, n.º 24 (22 de noviembre de 2017): 30807. http://dx.doi.org/10.1364/oe.25.030807.

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11

CHEN, XIAODONG, QIAO LI, YONG LEI, YI WANG y DAOYIN YU. "SDOCT IMAGE RECONSTRUCTION BY INTERFEROMETRIC SYNTHETIC APERTURE MICROSCOPY". Journal of Innovative Optical Health Sciences 03, n.º 01 (enero de 2010): 17–23. http://dx.doi.org/10.1142/s1793545810000812.

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Spectral domain optical coherence tomography (SDOCT) is a noninvasive, cross-sectional imaging technique that measures depth resolved reflectance of tissue by Fourier transforming the spectral interferogram with the scanning of the reference avoided. Interferometric synthetic aperture microscopy (ISAM) is an optical microscopy computed-imaging technique for measuring the optical properties of biological tissues, which can overcome the compromise between depth of focus and transverse resolution. This paper describes the principle of SDOCT and ISAM, which multiplexes raw acquisitions to provide quantitatively meaningful data with reliable spatially invariant resolution at all depths. A mathematical model for a coherent microscope with a planar scanning geometry and spectral detection was described. The two-dimensional fast Fourier transform (FFT) of spectral data in the transverse directions was calculated. Then the nonuniform ISAM resampling and filtering was implemented to yield the scattering potential within the scalar model. Inverse FFT was used to obtain the ISAM reconstruction. One scatterer, multiple scatterers, and noisy simulations were implemented by use of ISAM to catch spatially invariant resolution. ISAM images were compared to those obtained using standard optical coherence tomography (OCT) methods. The high quality of the results validates the rationality of the founded model and that diffraction limited resolution can be achieved outside the focal plane.
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12

Li Qiao, 李乔, 陈晓冬 Chen Xiaodong, 雷湧 Lei Yong, 汪毅 Wang Yi y 郁道银 Yu Daoyin. "Approximate Wavenumber Domain Algorithm for Interferometric Synthetic Aperture Microscopy". Chinese Journal of Lasers 37, n.º 11 (2010): 2725–29. http://dx.doi.org/10.3788/cjl20103711.2725.

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13

Deng, Zilin, Xiaoquan Yang, Hui Gong y Qingming Luo. "Two-dimensional synthetic-aperture focusing technique in photoacoustic microscopy". Journal of Applied Physics 109, n.º 10 (15 de mayo de 2011): 104701. http://dx.doi.org/10.1063/1.3585828.

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14

Chen, Xiaodong, Qiao Li, Yong Lei, Yi Wang y Daoyin Yu. "Approximate wavenumber domain algorithm for interferometric synthetic aperture microscopy". Optics Communications 283, n.º 9 (mayo de 2010): 1993–96. http://dx.doi.org/10.1016/j.optcom.2009.12.053.

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15

Kim, Moonseok, Youngwoon Choi, Christopher Fang-Yen, Yongjin Sung, Ramachandra R. Dasari, Michael S. Feld y Wonshik Choi. "High-speed synthetic aperture microscopy for live cell imaging". Optics Letters 36, n.º 2 (6 de enero de 2011): 148. http://dx.doi.org/10.1364/ol.36.000148.

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16

Ralston, Tyler S., Steven G. Adie, Daniel L. Marks, Brynmor J. Davis, P. Scott Carney y Stephen A. Boppart. "Real-Time Interferometric Synthetic Aperture Microscopy for Clinical Applications". Optics and Photonics News 19, n.º 12 (1 de diciembre de 2008): 32. http://dx.doi.org/10.1364/opn.19.12.000032.

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17

Mico, Vicente, Zeev Zalevsky y Javier García. "Synthetic aperture microscopy using off-axis illumination and polarization coding". Optics Communications 276, n.º 2 (agosto de 2007): 209–17. http://dx.doi.org/10.1016/j.optcom.2007.04.020.

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18

Ndop, J., T. J. Kim, W. Grill y M. Pluta. "Synthetic aperture imaging by scanning acoustic microscopy with vector contrast". Ultrasonics 38, n.º 1-8 (marzo de 2000): 166–70. http://dx.doi.org/10.1016/s0041-624x(99)00091-8.

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19

Marks, Daniel L., Brynmor J. Davis, Stephen A. Boppart y P. Scott Carney. "Partially coherent illumination in full-field interferometric synthetic aperture microscopy". Journal of the Optical Society of America A 26, n.º 2 (29 de enero de 2009): 376. http://dx.doi.org/10.1364/josaa.26.000376.

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20

Liu, Siyu, Xiaohua Feng, Fei Gao, Haoran Jin, Ruochong Zhang, Yunqi Luo y Yuanjin Zheng. "GPU-accelerated two dimensional synthetic aperture focusing for photoacoustic microscopy". APL Photonics 3, n.º 2 (febrero de 2018): 026101. http://dx.doi.org/10.1063/1.5005145.

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21

Kim, Moonseok, Youngwoon Choi, Christopher Fang-Yen, Yongjin Sung, Kwanhyung Kim, Ramachandra R. Dasari, Michael S. Feld y Wonshik Choi. "Three-dimensional differential interference contrast microscopy using synthetic aperture imaging". Journal of Biomedical Optics 17, n.º 2 (2012): 026003. http://dx.doi.org/10.1117/1.jbo.17.2.026003.

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22

Ralston, Tyler S., Daniel L. Marks, P. Scott Carney y Stephen A. Boppart. "Interferometric Synthetic Aperture Microscopy: Inverse Scattering for Optical Coherence Tomography". Optics and Photonics News 17, n.º 12 (1 de diciembre de 2006): 25. http://dx.doi.org/10.1364/opn.17.12.000025.

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23

Dupoisot, H., A. Poletaeff, G. Daury y P. de Vernejoul. "Off-axis recording and synthetic aperture imaging in light microscopy". Optics Communications 72, n.º 1-2 (julio de 1989): 42–46. http://dx.doi.org/10.1016/0030-4018(89)90253-8.

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24

Pan Feng, 潘锋, 肖文 Xiao Wen, 常君磊 Chang Junlei y 王大勇 Wang Dayong. "Synthetic aperture method of digital holography for long-working-distance microscopy". High Power Laser and Particle Beams 22, n.º 5 (2010): 978–82. http://dx.doi.org/10.3788/hplpb20102205.0978.

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25

Zhang Yunxu, 张运旭, 高万荣 Gao Wanrong y 伍秀玭 Wu Xiupin. "Interferometric Synthetic Aperture Microscopy Algorithm Based on Nonuniform Fast Fourier Transform". Acta Optica Sinica 37, n.º 4 (2017): 0418001. http://dx.doi.org/10.3788/aos201737.0418001.

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26

Wuest, Michael, Michael Schwarz, Johannes Eisenhart, Michael Nierla y Stefan J. Rupitsch. "A matched model-based synthetic aperture focusing technique for acoustic microscopy". NDT & E International 104 (junio de 2019): 51–57. http://dx.doi.org/10.1016/j.ndteint.2019.03.009.

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27

Deng, Zilin, Xiaoquan Yang, Hui Gong y Qingming Luo. "Adaptive synthetic-aperture focusing technique for microvasculature imaging using photoacoustic microscopy". Optics Express 20, n.º 7 (19 de marzo de 2012): 7555. http://dx.doi.org/10.1364/oe.20.007555.

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28

Park, Jongin, Seungwan Jeon, Jing Meng, Liang Song, Jin S. Lee y Chulhong Kim. "Delay-multiply-and-sum-based synthetic aperture focusing in photoacoustic microscopy". Journal of Biomedical Optics 21, n.º 3 (28 de marzo de 2016): 036010. http://dx.doi.org/10.1117/1.jbo.21.3.036010.

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29

Tu, Han-Yen, Wei-Jen Hsiao, Xin-Ji Lai, Yu-Chih Lin y Chau-Jern Cheng. "Synthetic aperture common-path digital holographic microscopy with spiral phase filter". Journal of Optics 19, n.º 6 (11 de mayo de 2017): 065604. http://dx.doi.org/10.1088/2040-8986/aa6ccb.

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30

Ralston, Tyler S., Steven G. Adie, Daniel L. Marks, Stephen A. Boppart y P. Scott Carney. "Cross-validation of interferometric synthetic aperture microscopy and optical coherence tomography". Optics Letters 35, n.º 10 (12 de mayo de 2010): 1683. http://dx.doi.org/10.1364/ol.35.001683.

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31

Lai, Xin-Ji, Han-Yen Tu, Chung-Hsin Wu, Yu-Chih Lin y Chau-Jern Cheng. "Resolution enhancement of spectrum normalization in synthetic aperture digital holographic microscopy". Applied Optics 54, n.º 1 (12 de diciembre de 2014): A51. http://dx.doi.org/10.1364/ao.54.000a51.

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32

Davis, Brynmor J., Tyler S. Ralston, Daniel L. Marks, Stephen A. Boppart y P. Scott Carney. "Autocorrelation artifacts in optical coherence tomography and interferometric synthetic aperture microscopy". Optics Letters 32, n.º 11 (1 de mayo de 2007): 1441. http://dx.doi.org/10.1364/ol.32.001441.

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33

Choi, Youngwoon, Moonseok Kim, Changhyeong Yoon, Taeseok Daniel Yang, Kyoung Jin Lee y Wonshik Choi. "Synthetic aperture microscopy for high resolution imaging through a turbid medium". Optics Letters 36, n.º 21 (28 de octubre de 2011): 4263. http://dx.doi.org/10.1364/ol.36.004263.

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34

Sheppard, Colin J. R., Shan Shan Kou y Christian Depeursinge. "Reconstruction in interferometric synthetic aperture microscopy: comparison with optical coherence tomography and digital holographic microscopy". Journal of the Optical Society of America A 29, n.º 3 (9 de febrero de 2012): 244. http://dx.doi.org/10.1364/josaa.29.000244.

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35

Maire, Guillaume, Hugues Giovannini, Anne Talneau, Patrick C. Chaumet, Kamal Belkebir y Anne Sentenac. "Phase imaging and synthetic aperture super-resolution via total internal reflection microscopy". Optics Letters 43, n.º 9 (27 de abril de 2018): 2173. http://dx.doi.org/10.1364/ol.43.002173.

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36

Turner, Jake, Héctor Estrada, Moritz Kneipp y Daniel Razansky. "Universal weighted synthetic aperture focusing technique (W-SAFT) for scanning optoacoustic microscopy". Optica 4, n.º 7 (6 de julio de 2017): 770. http://dx.doi.org/10.1364/optica.4.000770.

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37

Mason, Jonathan H., Mike E. Davies y Pierre O. Bagnaninchi. "Blur resolved OCT: full-range interferometric synthetic aperture microscopy through dispersion encoding". Optics Express 28, n.º 3 (28 de enero de 2020): 3879. http://dx.doi.org/10.1364/oe.379216.

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38

Levoy, M. "Synthetic Aperture Photography and Microscopy by Recording and Processing the 4D Light Field". Journal of Vision 7, n.º 15 (28 de marzo de 2010): 20. http://dx.doi.org/10.1167/7.15.20.

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39

Davis, Brynmor J., Simon C. Schlachter, Daniel L. Marks, Tyler S. Ralston, Stephen A. Boppart y P. Scott Carney. "Nonparaxial vector-field modeling of optical coherence tomography and interferometric synthetic aperture microscopy". Journal of the Optical Society of America A 24, n.º 9 (2007): 2527. http://dx.doi.org/10.1364/josaa.24.002527.

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40

Turner, Jake, Héctor Estrada, Moritz Kneipp y Daniel Razansky. "Improved optoacoustic microscopy through three-dimensional spatial impulse response synthetic aperture focusing technique". Optics Letters 39, n.º 12 (3 de junio de 2014): 3390. http://dx.doi.org/10.1364/ol.39.003390.

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41

Lee, Dennis J., Kyunghun Han, Hyeon Jeong Lee y Andrew M. Weiner. "Synthetic aperture microscopy based on referenceless phase retrieval with an electrically tunable lens". Applied Optics 54, n.º 17 (4 de junio de 2015): 5346. http://dx.doi.org/10.1364/ao.54.005346.

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42

Jeon, Seungwan, Jihoon Park, Ravi Managuli y Chulhong Kim. "A Novel 2-D Synthetic Aperture Focusing Technique for Acoustic-Resolution Photoacoustic Microscopy". IEEE Transactions on Medical Imaging 38, n.º 1 (enero de 2019): 250–60. http://dx.doi.org/10.1109/tmi.2018.2861400.

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43

Hillman, Timothy R., Thomas Gutzler, Sergey A. Alexandrov y David D. Sampson. "High-resolution, wide-field object reconstruction with synthetic aperture Fourier holographic optical microscopy". Optics Express 17, n.º 10 (28 de abril de 2009): 7873. http://dx.doi.org/10.1364/oe.17.007873.

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44

Neumann, Alexander, Yuliya Kuznetsova y S. R. J. Brueck. "Optical resolution below λ/4 using synthetic aperture microscopy and evanescent-wave illumination". Optics Express 16, n.º 25 (25 de noviembre de 2008): 20477. http://dx.doi.org/10.1364/oe.16.020477.

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45

Xu, Yang, Yuan-Zhi Liu, Stephen A. Boppart y P. Scott Carney. "Automated interferometric synthetic aperture microscopy and computational adaptive optics for improved optical coherence tomography". Applied Optics 55, n.º 8 (10 de marzo de 2016): 2034. http://dx.doi.org/10.1364/ao.55.002034.

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46

Cai, De, Zhongfei Li, Yao Li, Zhendong Guo y Sung-Liang Chen. "Photoacoustic microscopy in vivo using synthetic-aperture focusing technique combined with three-dimensional deconvolution". Optics Express 25, n.º 2 (18 de enero de 2017): 1421. http://dx.doi.org/10.1364/oe.25.001421.

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47

Lue, Niyom, Wonshik Choi, Gabriel Popescu, Kamran Badizadegan, Ramachandra R. Dasari y Michael S. Feld. "Synthetic aperture tomographic phase microscopy for 3D imaging of live cells in translational motion". Optics Express 16, n.º 20 (26 de septiembre de 2008): 16240. http://dx.doi.org/10.1364/oe.16.016240.

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48

Zhang, Shaohui, Guocheng Zhou, Ying Wang, Yao Hu y Qun Hao. "A Simply Equipped Fourier Ptychography Platform Based on an Industrial Camera and Telecentric Objective". Sensors 19, n.º 22 (11 de noviembre de 2019): 4913. http://dx.doi.org/10.3390/s19224913.

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Fourier ptychography microscopy (FPM) is a recently emerged computational imaging method, which combines the advantages of synthetic aperture and phase retrieval to achieve super-resolution microscopic imaging. FPM can bypass the diffraction limit of the numerical aperture (NA) system and achieve complex images with wide field of view and high resolution (HR) on the basis of the existing microscopic platform, which has low resolution and wide field of view. Conventional FPM platforms are constructed based on basic microscopic platform and a scientific complementary metal–oxide–semiconductor (sCMOS) camera, which has ultrahigh dynamic range. However, sCMOS, or even the microscopic platform, is too expensive to afford for some researchers. Furthermore, the fixed microscopic platform limits the space for function expansion and system modification. In this work, we present a simply equipped FPM platform based on an industrial camera and telecentric objective, which is much cheaper than sCMOS camera and microscopic platform and has accurate optical calibration. A corresponding algorithm was embedded into a conventional FP framework to overcome the low dynamic range of industrial cameras. Simulation and experimental results showed the feasibility and good performance of the designed FPM platform and algorithms.
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49

Yi, Luying, Liqun Sun, Xiangyu Guo y Bo Hou. "Combination of 2D Compressive Sensing Spectral Domain Optical Coherence Tomography and Interferometric Synthetic Aperture Microscopy". Applied Sciences 9, n.º 19 (25 de septiembre de 2019): 4003. http://dx.doi.org/10.3390/app9194003.

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Combining the advantages of compressive sensing spectral domain optical coherence tomography (CS-SDOCT) and interferometric synthetic aperture microscopy (ISAM) in terms of data volume, imaging speed, and lateral resolution, we demonstrated how compressive sampling and ISAM can be simultaneously used to reconstruct an optical coherence tomography (OCT) image. Specifically, an OCT image is reconstructed from two-dimensional (2D) under-sampled spectral data dimension-by-dimension through a CS reconstruction algorithm. During the iterative process of CS algorithm, the deterioration of lateral resolution beyond the depth of focus (DOF) of a Gaussian beam is corrected. In the end, with less spectral data, we can obtain an OCT image with spatially invariant lateral resolution throughout the imaging depth. This method was verified in this paper by imaging the cells of an orange. A 0.7 × 1.5 mm image of an orange was reconstructed using only 50% × 50% spectral data, in which the dispersion of the structure was decreased by approximately 2.4 times at a depth of approximately 5.7 Rayleigh ranges above the focus. This result was consistent with that obtained with 100% data.
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50

Lin, Yu-Chih, Han-Yen Tu, Xin-Ru Wu, Xin-Ji Lai y Chau-Jern Cheng. "One-shot synthetic aperture digital holographic microscopy with non-coplanar angular-multiplexing and coherence gating". Optics Express 26, n.º 10 (2 de mayo de 2018): 12620. http://dx.doi.org/10.1364/oe.26.012620.

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