Jingda Wu scite author profile

We propose and demonstrate a new optical trapping method for single cells that utilizes modulated light fields to trap a wide array of cell types, including mammalian, yeast, and Escherichia coli cells, on the surface of a two-dimensional photonic crystal. This method is capable of reducing the required light intensity, and thus minimizing the photothermal damage to living cells, thereby extending cell viability in optical trapping and cell manipulation applications. To this end, a thorough characterization of cell viability in optical trapping environments was performed. This study also demonstrates the technique using spatial light modulation in patterned manipulation of live cell arrays over a broad area.

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Differentiable Integrated Motion Prediction and Planning with Learnable Cost Function for Autonomous Driving

Huang¹,

Liu²,

Wu³

et al. 2022

Preprint

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Transmission-grating-photomasked transient spin grating and its application to measurement of electron-spin ambipolar diffusion in (110) GaAs quantum wells

Chen¹,

Wang²,

Wu³

et al. 2012

Opt. Express

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A circular dichromatic transient absorption difference spectroscopy of transmission-grating-photomasked transient spin grating is developed and formularized. It is very simple in experimental setup and operation, and has high detection sensitivity. It is applied to measure spin diffusion dynamics and excited electron density dependence of spin ambipolar diffusion coefficient in (110) GaAs quantum wells. It is found that the spin ambipolar diffusion coefficient of (110) and (001) GaAs quantum wells is close to each other, but has an opposite dependence tendency on excited electron density. This spectroscopy is expected to have extensive applicability in the measurement of spin transport.

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Jingda Wu

Spontaneous-polarization-induced photovoltaic effect in rhombohedrally stacked MoS2

Photonic Crystal Optical Tweezers with High Efficiency for Live Biological Samples and Viability Characterization

Differentiable Integrated Motion Prediction and Planning with Learnable Cost Function for Autonomous Driving

Transmission-grating-photomasked transient spin grating and its application to measurement of electron-spin ambipolar diffusion in (110) GaAs quantum wells

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