[1] Feng F, Tian A L, Liu B C et al. Full-field three-dimensional test for scratch defects using digital holographic scanning imaging system[J]. Chinese Journal of Lasers, 47, 0409003(2020).

[2] Di J L, Wu J, Wang K Q et al. Quantitative phase imaging using deep learning-based holographic microscope[J]. Frontiers in Physics, 9, 651313(2021).

[3] Dong Z, Wang W J, Wang H Y et al. Improved phase compensation method based on phase vibration minimization[J]. Chinese Journal of Lasers, 48, 2409001(2021).

[4] Wen Y F, Wang H Y, Anand A et al. A fast autofocus method based on virtual differential optical path in digital holography: theory and applications[J]. Optics and Lasers in Engineering, 121, 133-142(2019).

[5] Zhong Z, Zhao H J, Cao L C et al. Automatic cross filtering for off-axis digital holographic microscopy[J]. Results in Physics, 16, 102910(2020).

[6] Seo K W, Choi Y S, Seo E S et al. Aberration compensation for objective phase curvature in phase holographic microscopy[J]. Optics Letters, 37, 4976-4978.

[7] Lai X M, Xiao S, Xu C et al. Aberration-free digital holographic phase imaging using the derivative-based principal component analysis[J]. Journal of Biomedical Optics, 26, 046501(2021).

[8] Zeng Y N, Lu J S, Liu Y et al. Three-dimensional displacement tracking technique of particle based on digital holographic microscopy[J]. Chinese Journal of Lasers, 44, 1204001(2017).

[9] Krizova A, Collakova J, Dostal Z et al. Dynamic phase differences based on quantitative phase imaging for the objective evaluation of cell behavior[J]. Journal of Biomedical Optics, 20, 111214(2015).

[10] Gurram H P R, Panta P, Pandiyan V P et al. Digital holographic microscopy for quantitative and label-free oral cytology evaluation[J]. Optical Engineering, 59, 024105(2020).

[11] Lee K, Kim K, Jung J et al. Quantitative phase imaging techniques for the study of cell pathophysiology: from principles to applications[J]. Sensors, 13, 4170-4191(2013).

[12] Wu C H, Lai X J, Cheng C J et al. Applications of digital holographic microscopy in therapeutic evaluation of Chinese herbal medicines[J]. Applied Optics, 53, G192-G197(2014).

[13] Majeed H, Sridharan S, Mir M et al. Quantitative phase imaging for medical diagnosis[J]. Journal of Biophotonics, 10, 177-205(2017).

[14] Rajput S K, Matoba O, Kumar M et al. Sound wave detection by common-path digital holography[J]. Optics and Lasers in Engineering, 137, 106331(2021).

[15] Brito I V, Gesualdi M R, Muramatsu M et al. Holographic microscopy techniques applied to micro-structures analysis[C], MB34(2010).

[16] Xia P, Ri S E, Wang Q H et al. Nanometer-order thermal deformation measurement by a calibrated phase-shifting digital holography system[J]. Optics Express, 26, 12594-12604(2018).

[17] Lee H S, Shin S, Lee H et al. Determining two-sided surface profiles of micro-optical elements using a dual-wavelength digital holographic microscope with liquids[J]. Journal of the Optical Society of Korea, 18, 495-499(2014).

[18] Eldridge W J, Sheinfeld A, Rinehart M T et al. Imaging deformation of adherent cells due to shear stress using quantitative phase imaging[J]. Optics Letters, 41, 352-355(2016).

[19] Popescu G, Ikeda T, Dasari R R et al. Diffraction phase microscopy for quantifying cell structure and dynamics[J]. Optics Letters, 31, 775-777(2006).

[20] Bhaduri B, Edwards C, Pham H et al. Diffraction phase microscopy: principles and applications in materials and life sciences[J]. Advances in Optics and Photonics, 6, 57-119(2014).

[21] Quan X Y, Kumar M, Rajput S K et al. Multimodal microscopy: fast acquisition of quantitative phase and fluorescence imaging in 3D space[J]. IEEE Journal of Selected Topics in Quantum Electronics, 27, 1-11(2021).

[22] Liu B C, Wang D S, Zhu X L et al. Wavelength-tuning common-path digital holographic microscopy for quantitative phase imaging of functional micro-optics components[J]. Applied Sciences, 10, 5602(2020).

[23] Baek Y, Lee K, Yoon J et al. White-light quantitative phase imaging unit[J]. Optics Express, 24, 9308-9315(2016).

[24] Kumar M, Quan X Y, Awatsuji Y et al. Single-shot common-path off-axis dual-wavelength digital holographic microscopy[J]. Applied Optics, 59, 7144-7152(2020).

[25] Shaked N T. Quantitative phase microscopy of biological samples using a portable interferometer[J]. Optics Letters, 37, 2016-2018(2012).

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

[27] Bai H Y, Shan M G, Zhong Z et al. Common path interferometer based on the modified Michelson configuration using a reflective grating[J]. Optics and Lasers in Engineering, 75, 1-4(2015).

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

[29] Roitshtain D, Turko N A, Javidi B et al. Flipping interferometry and its application for quantitative phase microscopy in a micro-channel[J]. Optics Letters, 41, 2354-2357(2016).

[30] Li Y, Zhang S M, Zhang J Y et al. Single-shot phase-shifting radial-shearing digital holography with Fibonacci-sieve array irrespective of initial phases[J]. Applied Physics Letters, 118, 261101(2021).

[31] Mico V, Ferreira C, Zalevsky Z et al. Spatially-multiplexed interferometric microscopy (SMIM): converting a standard microscope into a holographic one[J]. Optics Express, 22, 14929-14943(2014).

[32] Zhang M L, Ma Y, Wang Y et al. Polarization grating based on diffraction phase microscopy for quantitative phase imaging of paramecia[J]. Optics Express, 28, 29775-29787(2020).

[33] Zhang J H, Ma L H, Li Y et al. Halogen-light quantitative phase imaging with common-path digital holographic microscopy based on grating diffraction[J]. Chinese Journal of Lasers, 45, 0609003(2018).

[34] Yu D Y, Tan H Y[M]. Engineering optics(2011).

[35] Qian X F, Wang Z L, Hu T et al. Reconstructing the phase of wavefront using digital hologram and the principle of shearing interferometry[J]. Chinese Journal of Lasers, 37, 1821-1826(2010).

[36] Wang H Y, Liu Z Q, Liao W et al. Comparison of four phases unwrapping algorithm based on method of minimum norm[J]. Chinese Journal of Lasers, 41, 0209016(2014).