[1] Shifu FAN, Songshan XIAO, Youquan ZHAO et al. Spectral imaging technique and its biomedical researching applications. Modern Scientific Instruments, 60-62(2005).
[2] Cuirong YU, Xinquan WANG, Minjun QI et al. Application of spectral and spectral imaging technology in biomedicine. Chinese Journal of Quantum Electronics, 32, 641-646(2015).
[3] J W GOODMAN. Some fundamental properties of speckle. Journal of the Optical Society of America, 66, 1145-1150(1976).
[4] Lei ZHU, Xiaopeng SHAO. Research process on scattering imaging technology. Acta Optica Sinica, 40, 0111005(2020).
[5] I M VELLEKOOP, A P MOSK. Focusing coherent light through opaque strongly scattering media. Optics Letters, 32, 2309(2007).
[6] A P MOSK, A LAGENDIJK, G LEROSEY et al. Controlling waves in space and time for imaging and focusing in complex media. Nature Photonics, 6, 283-292(2012).
[7] G S POPOFF, G LEROSEY, M CARMINATI et al. Measuring the transmission matrix in optics: an approach to the study and control of light propagation in disordered media. Physical Review Letters, 104, 100601(2010).
[8] I M VELLEKOOP, A LAGENDIJK, A P MOSK. Exploiting disorder for perfect focusing. Nature Photonics, 4, 320-322(2010).
[9] R HORSTMEYER, Haowen RUAN, Changhuei YANG. Guidestar-assisted wavefront-shaping methods for focusing light into biological tissue. Nature Photonics, 9, 563-571(2015).
[10] A BONOFACE, B BLOCHET, J DONG et al. Non-invasive light focusing in scattering media using speckle variance optimization. Optica, 6, 1381-1385(2019).
[11] A DANIEL, D ORON, Y SILLBERBERG. Light focusing through scattering media via linear fluorescence variance maximization, and its application for fluorescence imaging. Optics Express, 27, 21778-21786(2019).
[12] J BERTOLOTTI, E PUTTEN, C BLUM et al. Non-invasive imaging through opaque scattering layers. Nature, 491, 232-234(2012).
[13] B REDDING, S M POPOFF, Hui CAO. All-fiber spectrometer based on speckle pattern reconstruction. Optics Express, 21, 6584(2013).
[14] H PARK, K B CROZIER. Multispectral imaging with vertical silicon nanowires. Scientific Reports, 3, 2460(2013).
[15] J W STEWART, G M AKSELROD, D R SMITH et al. Toward multispectral imaging with coloidal metasurface pixels. Advanced Materials, 29, 1602971(2017).
[16] FERNANDO , SOLDEVILA , D JONATHAN et al. Fast compressive Raman bio-imaging via matrix completion. Optica, 6, 341-346(2019).
[17] A BONIFACE, J DONG, S GIGAN. Non-invasive focusing and imaging in scattering media with a fluorescence-based transmission matrix. Nature Communications, 11, 6154(2020).
[18] C FEVOTTE, N DOBIGEON. Nonlinear hyperspectral unmixing with robust nonnegative matrix factorization. IEEETrans Image Process, 24, 4810-4819(2015).
[19] F HAFSHEJANIS, R BOOSTANI, Z MOABERFARD. A Comprehensive review on nonnegative matrix factorization(2019).
[20] G H GOLUDB, C LOAN. Matrix computations(1996).
[21] Xiaojun CHENG, Yunzhe LI, J MERTZ et al. Development of a beam propagation method to simulate the point spread function degradation in scattering media. Optics Letters, 44, 4989-4995(2019).
[22] Bingxin TIAN, B RAUER, A BONIFACE et al. Non-invasive raman signal enhancement in a scattering medium(2021).