Haiyun Qin scite author profile

Haiyun Qin

4Publications

5Citation Statements Received

73Citation Statements Given

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Northwest University

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Influence of fluorescence time characteristics on the spatial resolution of CW-stimulated emission depletion microscopy

Qin¹,

Zhao²,

Zhang³

et al. 2018

Chinese Phys. B

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As one of the most important realizations of stimulated emission depletion (STED) microscopy, the continuouswave (CW) STED system, constructed by using CW lasers as the excitation and STED beams, has been investigated and developed for nearly a decade. However, a theoretical model of the suppression factors in CW STED has not been well established. In this investigation, the factors that affect the spatial resolution of a CW STED system are theoretically and numerically studied. The full-width-at-half-maximum (FWHM) of a CW STED with a doughnut-shaped STED beam is also reanalyzed. It is found that the suppression function is dominated by the ratio of the local STED and excitation beam intensities. In addition, the FWHM is highly sensitive to both the fluorescence rate (inverse of fluoresce lifetime) and the quenching rate, but insensitive to the rate of vibrational relaxation. For comparison, the suppression function in picosecond STED is only determined by the distribution of the STED beam intensity scaled with the saturation intensity. Our model is highly consistent with published experimental data for evaluating the spatial resolution. This investigation is important in guiding the development of new CW STED systems.

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Enhanced fluorescence quenching rate of Coumarin 102 in stimulated emission depletion

Zhao

Sharma

Zhang

et al. 2020

Journal of Luminescence

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Evaluation of saturation intensity based on the FWHM of CW stimulated emission depletion microscopy

Qin

Zhao

Zhang

et al. 2018

Optik

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Parametric investigations on the saturation intensity of Coumarin 102 for stimulated emission depletion application

Qin

Zhao

Zhang

et al. 2018

Journal of Microscopy

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Stimulated emission depletion (STED) microscopy performed using continuous-wave (CW) lasers has been investigated and developed by Willig et al. (Nature Methods, 2007, 4(11):915) for nearly a decade. Kuang et al. (Review of Scientific Instruments, 2010, 81:053709) developed the CW STED microscopy technique with 405 nm excitation and 532 nm depletion beams. In their research, Coumarin 102 dye was adopted and was found to be depletable. In this study, a parametric investigation of the depletion of Coumarin 102 dye is carried out experimentally. The influence of the excitation and depletion beam intensities and dye concentrations on the depletion efficiency are studied in detail. The results indicate the following: (1) The highest depletion occurs for the 100 μM Coumarin 102 solution, with a 1.4 μW excitation beam and a 115.3 mW depletion beam. (2) The minimum saturation intensity (Is) of STED, that is 13 MW cm , is observed when the Coumarin 102 solution concentration is 10 μM. (3) Is values calculated directly from the depletion power derived with the cross-sectional area due to the full-width-at-half-maximum (FWHM) of the depletion beam show poor accuracy, where Is may be overestimated. Thus, a correction factor for the cross-sectional area is proposed. We also find that Is is not exactly constant for a fixed excitation beam power and dye concentration. This trend indicates that the conventional suppression function η(x)=e- ln (2)ISTED(x)/Is derived from picosecond STED may cause errors in evaluating the depletion process in CW STED microscopy.

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Haiyun Qin

Influence of fluorescence time characteristics on the spatial resolution of CW-stimulated emission depletion microscopy

Enhanced fluorescence quenching rate of Coumarin 102 in stimulated emission depletion

Evaluation of saturation intensity based on the FWHM of CW stimulated emission depletion microscopy

Parametric investigations on the saturation intensity of Coumarin 102 for stimulated emission depletion application

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