Super-resolution Microscopy
Our approach to super-resolution microscopy is fundamentally different from most existing techniques such as stimulated emission depletion microscopy, structured illumination microscopy, or single-molecule localization microscopy. For common fluorescent samples, our method typically achieves ~3-5 fold resolution enhancement over the ​
Unlike most existing techniques, our method does not require special fluorophores or additional sample treatments. All it needs is a focused laser spot for illumination, and a constrained deconvolution algorithm.​
The mechanism of our method is a story that spans nearly a half century. In the early 1970's, Prof. Roy Frieden and his colleagues in the University of Arizona demonstrated that certain . In the 90's, several mathematicians pointed out that the . Another 20-plus years later, our group coincidentally discovered that compared to the conventional widefield, uniform illumination.​
While achieving superior super-resolution, the true advantages of our method is its simplicity for biological fluorescence microscopy, and its potential for live-cell imaging.