Guo-Neng Lu
Institut des Nanotechnologies de Lyon
43 Papers
184 Citations
Guo-Neng Lu is an academic researcher from Institut des Nanotechnologies de Lyon. The author has contributed to research in topics: CMOS & Dosimetry. The author has an hindex of 12, co-authored 41 publications. Previous affiliations of Guo-Neng Lu include University of Lyon & Institut national des sciences Appliquées de Lyon.
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Papers
PL characterization of GaN scintillator for radioluminescence-based dosimetry
Patrick Pittet,Patrick Pittet,Guo-Neng Lu,Guo-Neng Lu,Jean-Marc Galvan,Jean-Marc Galvan,Jean-Marie Bluet,Jean-Marie Bluet,Ismail Anas,J.-Y. Giraud,Jacques Balosso,Jacques Balosso +11 more
TL;DR: In this paper, Si-doped n-type GaN samples have common dominant band-edge emission at room temperature, with a strong doping-dependence on their PL spectra.
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CMOS buried Quad p-n junction photodetector for multi-wavelength analysis
Charles Richard,Thierry Courcier,Patrick Pittet,Stephane Martel,Luc Ouellet,Guo-Neng Lu,Vincent Aimez,Paul G. Charette +7 more
TL;DR: The BQJ device presented here is designed for chip-based biochemical analyses using simultaneous fluorescence labeling of multiple analytes such as with advanced labs-on-chip or miniaturized photonics-based biosensors.
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A Review of the CMOS Buried Double Junction (BDJ) Photodetector and its Applications
TL;DR: A CMOS Buried Double Junction PN (BDJ) photodetector consists of two vertically-stacked photodiodes and can be operated as a photodiode with improved performance and wavelength-sensitive response.
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Design and testing of a phantom and instrumented gynecological applicator based on GaN dosimeter for use in high dose rate brachytherapy quality assurance.
Pierrick Guiral,Julien Ribouton,Patrice Jalade,R. Wang,Jean-Marc Galvan,Guo-Neng Lu,Patrick Pittet,Audrey Rivoire,L. Gindraux +8 more
TL;DR: The design and testing of a phantom and an instrumented gynecological applicator for pretreatment QA and in vivo QC, respectively are described, allowing independent verification of dwell position and time with accuracy of measurements comparable with other similar systems reported in the literature.
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In vivo dosimetric system based on Gallium Nitride radioluminescence
A. Ismail,A. Ismail,Patrick Pittet,Guo-Neng Lu,Jean-Marc Galvan,J.-Y. Giraud,J. Balosso,J. Balosso +7 more
TL;DR: In this paper, an implantable dosimetric system for real-time measurements of dose and dose rate was proposed, consisting of a fiber probe and a spectrophotometric module with signal processing implementation.
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