[1] [1] Gao Peng,Harder I,Nercissian V,et al.Phase-shifting point-diffraction interferometry with common-path and in-line configuration for microscopy［J］.Optics Letters,2010,35(5):712—714.

[2] [2] Girshovitz P,Shaked N T.Compact and portable low-coherence interferometer with off-axis geometry for quantitative phase microscopy and nanoscopy［J］.Optics Express,2013,21(5):5701—5714.

[3] [3] Mahajan P,Trivedi V,Vora P,et al.Highly stable digital holographic microscope using Sagnac interferometer［J］.Optics Letters,2015,40(16):3743—3746.

[4] [4] Shaked N T,Micó V,Trusiak M,et al.Off-axis digital holographic multiplexing for rapid wavefront acquisition and processing［J］.Advances in Optics and Photonics,2020,12(3):556—611.

[5] [5] Pham V H,Edwards C,Goddard L L,et al.Fast phase reconstruction in white light diffraction phase microscopy［J］.Applied Optics,2013,52(1):A97—A101.

[6] [6] Girshovitz P,Shaked N T.Real-time quantitative phase reconstruction in off-axis digital holography using multiplexing［J］.Optics Letters,2014,39(8):2262—2265.

[7] [7] Sha Bei,Liu Xuan,Ge Xiaolu,et al.Fast reconstruction of off-axis digital holograms based on digital spatial multiplexing［J］.Optics Express,2014,22(19):23066—23072.

[8] [8] Cuche E,Marquet P,Depeursinge C.Spatial filtering for zero-order and twin-image elimination in digital off-axis holography［J］.Applied Optics,2000,39(23):4070—4075.

[9] [9] MANN C J,YU L,LO C M,et al.High-resolution quantitative phase-contrast microscopy by digital holography［J］.Optics Express,2005,13(22):8693—8698.

[10] [10] Weng Jiawen,Zhong Jingang,Hu Cuiying.Automatic spatial filtering to obtain the virtual image term in digital holographic microscopy［J］.Applied Optics,2010,49(2):189—95.

[11] [11] Rincon O J,Amezquita R,Torres Y M,et al.Novel method for automatic filtering in the Fourier space applied to digital hologram reconstruction［J］.SPIE Proceedings,2011,8082:748—754.

[12] [12] Weng Jiawen,Li Hai,Zhang Zibang,et al.Design of adaptive spatial filter at uniform standard for automatic analysis of digital holographic microscopy［J］.Optik,2014,125(11):2633—2637.

[13] [13] Li Jiansu,Wang Zhao,Gao Jianmin,et al.Adaptive spatial filtering based on region growing for automatic analysis in digital holographic microscopy［J］.Optical Engineering,2015,54(3):031103.

[14] [14] Marcella M,Pasquale M,Lisa M,et al,Improving holographic reconstruction by automatic Butterworth filtering for microelectromechanical systems characterization［J］.Applied Optics,2015,54(11):3428—3432.

[15] [15] Hong Yuan,Shi Tielin,Wang Xiao,et al.Weighted adaptive spatial filtering in digital holographic microscopy［J］.Optics Communications,2017,382:624—631.

[16] [16] Xiao Wen,Wang Qixiang,Pan Feng,et al.Adaptive frequency filtering based on convolutional neural networks in off-axis digital holographic microscopy［J］.Biomedical Optics Express,2019,10(4):1613—1626.

[17] [17] Liu Yun,Wang Zhao,Li Jiansu,et al.Phase based method for location of the centers of side bands in spatial frequency domain in off-axis digital holographic microcopy［J］.Optics and Lasers in Engineering Nov,2016,86:115—124.

[18] [18] Duan Junyi,Liu Juan.A new method for computer-generated holograms based on coherence degree of spatially partially coherent light［J］.Optical Technology,2019,45(04):463—468.

[19] [19] Hao Bining,Liu Juan,Duan Junyi,et al.Hologram generation and display based on spatial partially coherent light［J］.Optical Technology,2018,44(06):673—676.

[20] [20] Xiao Wen,Wang Qingwu，Pan Feng.Suppression of coherent noise by wavelet combined with bilateral filtering in digital holography［J］.Opto-Electronic Engineering,2016,43(08):39—46.

[21] [21] Sun Qiuya，Liu Yiwei,Chen Hao,et al.Adaptive reconstruction imaging based on K-means clustering in off-axis digital holography ［J］.Optics Continuum,2022,1(3):475—486.