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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Nonlinear optical microscopy based on double-clad photonic crystal fibers
Ling Fu,Xiaosong Gan,Min Gu +2 more
TL;DR: A nonlinear optical microscope that adopts double-clad photonic crystal fibers for single-mode illumination delivery and multimode signal collection and high resolution three-dimensional second harmonic generation images from rat tail tendon demonstrate the effectiveness of the system.
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Nanometric holograms based on a topological insulator material
TL;DR: This work paves a way towards integrating holography with flat electronic devices for optical imaging, data storage and information security by discovering that nanometric topological insulator thin films act as an intrinsic optical resonant cavity due to the unequal refractive indices in their metallic surfaces and bulk.
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Biomimetic gyroid nanostructures exceeding their natural origins
TL;DR: Using optical two-beam lithography with improved resolution and enhanced mechanical strength, the replication of gyroid photonic nanostructures found in the butterfly Callophrys rubi are demonstrated to have size, controllability, and uniformity that are superior to those of their biological counterparts.
Journal Article
Comparison of three-dimensional imaging properties between two-photon and single-photon fluorescence microscopy
Min Gu,Colin J. R. Sheppard +1 more
TL;DR: In this article, the imaging performance in single-photon (l-p) and two-p (2p) fluorescence microscopy is compared in terms of the three-dimensional (3D) point spread function and the 3-D optical transfer function.
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Intrinsically core-shell plasmonic dielectric nanostructures with ultrahigh refractive index
TL;DR: A novel conic plasmonic nanostructure that is made of bulk-insulating topological insulators and has an intrinsic core-shell formation paves a new way for designing low-loss and high-performance visible to infrared optical devices.