M
Min Gu
Researcher at University of Shanghai for Science and Technology
Publications - 774
Citations - 26346
Min Gu is an academic researcher from University of Shanghai for Science and Technology. The author has contributed to research in topics: Photonic crystal & Laser. The author has an hindex of 78, co-authored 729 publications receiving 22238 citations. Previous affiliations of Min Gu include St. Vincent's Institute of Medical Research & University of Sydney.
Papers
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Proceedings ArticleDOI
Two-photon fluorescence spectroscopy for identification of healthy and malignant biological tissues
TL;DR: The result imply that two-photon fluorescence spectroscopy can be a potential technique for identification of healthy and malignant biological tissues.
Proceedings ArticleDOI
Fabrication of high refractive index and high nonlinearity functional PbSe nano-structures by direct laser writing
Zongsong Gan,Yaoyu Cao,Min Gu +2 more
TL;DR: In this article, high refractive index and high nonlinearity functional PbSe nano-structures have been firstly fabricated with direct laser writing, which gives the way for the fabrication of a series of semiconductor nanostructures for photonic applications.
Proceedings ArticleDOI
Spontaneous emission enhancement with defects in a three dimensional pseudo-gap photonic crystal
TL;DR: In this paper, a plane defect was induced in three-dimensional photonic crystals with pseudo-gaps to change the local density of states, leading to a 15% decrease of the emission lifetime.
Journal ArticleDOI
Characterization of a Confocal Microscope Readout System in a Photochromic Polymer under Two-Photon Excitation
TL;DR: In this paper, a detailed experimental characterization of a confocal microscope readout system in a photochromic polymer under two-photon excitation is presented, in particular, the effect of writing power, exposure time and recording depth on the contrast of the readout signal is explored.
Book ChapterDOI
Nonlinear optical endoscopy
TL;DR: In this article, a compact nonlinear optical endoscopy based on a singlemode fiber coupler was proposed to replace complicated bulk optical microscopy for in-vivo medical diagnosis in humans.