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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Journal ArticleDOI
Acoustic Oscillations and Elastic Moduli of Single Gold Nanorods
TL;DR: Contrary to previous reports on ensembles of gold nanorods, it is found that the single particle elastic moduli agree well with bulk values.
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In Situ Third-Order Non-linear Responses During Laser Reduction of Graphene Oxide Thin Films Towards On-Chip Non-linear Photonic Devices
TL;DR: GO thin films with tunable nonlinear responses and versatile patterning opportunities by using direct laser writing may serve as promising solid-state materials for novel nonlinear functional devices.
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Reflection confocal microscope readout system for three-dimensional photochromic optical data storage.
A. Toriumi,Satoshi Kawata,Min Gu +2 more
TL;DR: It is shown by means of3D Fourier space analysis that successful reading of 3D data can be obtained by selection of the appropriate parameter for the RCM.
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Metal-Loaded Dielectric Resonator Metasurfaces for Radiative Cooling
Chengjun Zou,Chengjun Zou,Guanghui Ren,Muntasir Hossain,Shruti Nirantar,Withawat Withayachumnankul,Taimur Ahmed,Madhu Bhaskaran,Sharath Sriram,Min Gu,Christophe Fumeaux +10 more
TL;DR: In this paper, a subwavelength dielectric resonator metasurface supporting various resonance modes is proposed and experimentally demonstrated enhanced by metal loading to obtain strong broadband thermal emission over a wide angle at mid-infrared frequencies.
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Focusing of doughnut laser beams by a high numerical-aperture objective in free space.
Djenan Ganic,Xiaosong Gan,Min Gu +2 more
TL;DR: It is reported on a phenomenon that the central zerointensity point of a doughnut beam, caused by phase singularity, disappears in the focus, when such a beam is focused by a high numerical-aperture objective in free space.