Yefeng Guan scite author profile

Diffraction-limited imaging through complex scattering media is a long sought after goal with important applications in biomedical research. In recent years, high resolution wavefront-shaping has emerged as a powerful approach to generate a sharp focus through highly scattering, visually opaque samples. However, it requires a localized feedback signal from the target point of interest, which necessitates an invasive procedure in all-optical techniques. Here, we show that by exploiting optical nonlinearities, a diffraction-limited focus can be formed inside or through a complex sample, even when the feedback signal is not localized. We prove our approach theoretically and numerically, and experimentally demonstrate it with a two-photon fluorescence signal through highly scattering biological samples. We use the formed focus to perform two-photon microscopy through highly scattering, visually opaque layers.

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Polarization control of multiply scattered light through random media by wavefront shaping

Guan

Katz

Small

et al. 2012

Opt. Lett.

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We show that the polarization state of coherent light propagating through an optically thick multiple scattering medium can be controlled by wavefront shaping, that is, by controlling only the spatial phase of the incoming field with a spatial light modulator. Any polarization state of light at any spatial position behind the scattering medium can be attained with this technique. Thus, transforming the random medium to an arbitrary optical polarization component becomes possible.

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Image restoration through thin turbid layers by correlation with a known object

2013

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A method to recover the image of an object behind thin turbid layers is developed by wavefront shaping technique. The optimized wavefront is generated by modulating the scattering light of a known object with a spatial light modulator. A Pearson Correlation Coefficient is introduced as a cost function for the optimization. A beam scanning method based on optical memory effect is proposed to further enlarge the Field-of-View (FOV). The experimental results show good fidelity and large FOV of the recovered image.

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Spectral control of broadband light through random media by wavefront shaping

et al. 2012

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A random medium can serve as a controllable arbitrary spectral filter with spectral resolution determined by the inverse of the interaction time of the light in the medium. We use wavefront shaping to implement an arbitrary spectral response at a particular point in the scattered field. We experimentally demonstrate this technique by selecting either a narrow band or dual bands with a width of 5.5 nm each.

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Research on the structural features and influence mechanism of the green ICT transnational cooperation network

Zhu²,

Guan³

et al. 2022

Economic Analysis and Policy

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Yefeng Guan

Noninvasive nonlinear focusing and imaging through strongly scattering turbid layers

Polarization control of multiply scattered light through random media by wavefront shaping

Image restoration through thin turbid layers by correlation with a known object

Spectral control of broadband light through random media by wavefront shaping

Research on the structural features and influence mechanism of the green ICT transnational cooperation network

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