摘要
Single molecular localization microscopy(SMLM)is a useful tool in biological observation with sub-10-nm resolution.However,SMLM is incapable of discerning two molecules within the diffraction-limited region unless with the help of a stochastic on–off switching scheme which yet entails time-consuming processes.Here,we produce a novel kind of focal spot pattern,called sub-diffraction dark spot(SDS),to localize molecules within the sub-diffraction region of interest.In our proposed technique nominated as sub-diffracted dark spot localization microscopy(SDLM),multiple molecules within the diffraction-limited region could be distinguished without the requirement of stochastic fluorescent switches.We have numerically investigated some related impacts of SDLM,such as detection circle diameter,collected photon number,background noise,and SDS size.Simulative localization framework has been implemented on randomly distributed and specifically structured samples.In either two-or three-dimensional case,SDLM is evidenced to have2 nm localization accuracy.
基金
National Natural Science Foundation of China(61735017,61827825)
Major Program of the Natural Science Foundation of Zhejiang Province(LD21F050002)
Key Research and Development Program of Zhejiang Province(2020C01116)
Fundamental Research Funds for the Central Universities(K20200132)
Zhejiang Lab(2020MC0AE01)。
