Jinxin Huang scite author profile

We study experimentally the effective duty cycle of galvanometer-based scanners (GSs) with regard to three main parameters of the scanning process: theoretical/imposed duty cycle (of the input signal), scan frequency, and scan amplitude. Sawtooth and triangular input signals for the device are considered. The effects of the mechanical inertia of the oscillatory element of the GS are analyzed and their consequences are discussed in the context of optical coherence tomography (OCT) imaging. When the theoretical duty cycle and the scan amplitude are increased to the limit, the saturation of the device is demonstrated for a useful range of scan frequencies by direct measurement of the position of the galvomirror. Investigations of OCT imaging of large samples also validate this saturation, as examplified by the gaps/blurred portions obtained between neighboring images when using both triangular and sawtooth scanning at high scan frequencies. For this latter aspect, the necessary overlap between neighboring B-scans, and therefore between the corresponding volumetric reconstructions of the sample, are evaluated and implemented with regard to the same parameters of the scanning process. OCT images that are free of these artifacts are thus obtained.

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A lysosome-targetable and two-photon fluorescent probe for imaging endogenous β-galactosidase in living ovarian cancer cells

Huang

Wang

et al. 2017

Sensors and Actuators B: Chemical

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Cyanine-based NIR fluorescent probe for monitoring H2S and imaging in living cells and in vivo

Xiong

Xia

Huang

et al. 2018

Talanta

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A reaction based one- and two-photon fluorescent probe for selective imaging H2O2 in living cells and tissues

Huang

Wang

et al. 2018

Sensors and Actuators B: Chemical

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Jinxin Huang

Construction 0D TiO2 nanoparticles/2D CoP nanosheets heterojunctions for enhanced photocatalytic H2 evolution activity

Optimization of galvanometer scanning for optical coherence tomography

A lysosome-targetable and two-photon fluorescent probe for imaging endogenous β-galactosidase in living ovarian cancer cells

Cyanine-based NIR fluorescent probe for monitoring H2S and imaging in living cells and in vivo

A reaction based one- and two-photon fluorescent probe for selective imaging H2O2 in living cells and tissues

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