His scientific interests lie mostly in Laser, Optics, Optoelectronics, Doping and Analytical chemistry. The study incorporates disciplines such as Wavelength and Single crystal in addition to Laser. His study looks at the relationship between Optics and topics such as Diode, which overlap with Ultrafast optics.
Richard Moncorgé interconnects Dye laser, Optical cavity and Laser power scaling in the investigation of issues within Optoelectronics. His Doping research includes elements of Crystallography and Thermal. His biological study spans a wide range of topics, including Excited state, Absorption and Emission spectrum.
Laser, Optoelectronics, Optics, Doping and Analytical chemistry are his primary areas of study. Richard Moncorgé combines subjects such as Crystal and Atomic physics with his study of Laser. The concepts of his Optoelectronics study are interwoven with issues in Q-switching and Laser power scaling.
He focuses mostly in the field of Doping, narrowing it down to topics relating to Thermal and, in certain cases, Lens. His work deals with themes such as Infrared and Emission spectrum, which intersect with Analytical chemistry. Richard Moncorgé has included themes like Active laser medium and Distributed feedback laser in his Laser pumping study.
Richard Moncorgé mainly focuses on Laser, Optoelectronics, Optics, Slope efficiency and Doping. His Laser research is multidisciplinary, incorporating elements of Absorption, Crystal and Analytical chemistry. His Optoelectronics research includes themes of Laser pumping and Laser power scaling.
The various areas that Richard Moncorgé examines in his Optics study include Thermal and Amplifier. His studies in Slope efficiency integrate themes in fields like Laser diode, Output coupler, Continuous wave, Fabry–Pérot interferometer and Dye laser. The Doping study combines topics in areas such as Luminescence, ZBLAN, Infrared and Epitaxy.
The scientist’s investigation covers issues in Laser, Optics, Optoelectronics, Slope efficiency and Laser power scaling. His Laser research incorporates elements of Absorption, Crystal, Quantum efficiency and Analytical chemistry. His Crystal study combines topics in areas such as Power and Atomic physics.
His work carried out in the field of Optics brings together such families of science as Amplifier and Doping. His research integrates issues of Pulse-width modulation, Laser pumping and Pulse in his study of Optoelectronics. His Laser pumping study combines topics from a wide range of disciplines, such as Active laser medium and Tunable laser.
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High-power diode-pumped Yb3+:CaF2 femtosecond laser.
A. Lucca;G. Debourg;Mathieu Jacquemet;Frédéric Druon.
Optics Letters (2004)
Growth, spectroscopic characterization, and laser performance of Nd:LuVO 4 , a new infrared laser material that is suitable for diode pumping
C. Maunier;J. L. Doualan;R. Moncorge;A. Speghini.
Journal of The Optical Society of America B-optical Physics (2002)
CW AND TUNABLE LASER OPERATION OF YB3+ DOPED CAF2
V. Petit;J.L. Doualan;P. Camy;V. Ménard.
Applied Physics B (2004)
Energy-transfer processes in Yb:Tm-doped KY 3 F 10 , LiYF 4 , and BaY 2 F 8 single crystals for laser operation at 1.5 and 2.3 μm
A. Braud;S. Girard;J. L. Doualan;M. Thuau.
Physical Review B (2000)
Er3+-doped GeGaSbS glasses for mid-IR fibre laser application: Synthesis and rare earth spectroscopy
Virginie Moizan;Virginie Nazabal;Johann Troles;Patrick Houizot.
Optical Materials (2008)
Compact diode-pumped passively Q-switched tunable Er-Yb double-clad fiber laser.
M. Laroche;A. M. Chardon;J. Nilsson;D. P. Shepherd.
Optics Letters (2002)
High-power tunable diode-pumped Yb3+:CaF2 laser.
A. Lucca;Mathieu Jacquemet;Frédéric Druon;François Balembois.
Optics Letters (2004)
Yb:CaF2 — a new old laser crystal
M. Siebold;S. Bock;U. Schramm;B. Xu.
Applied Physics B (2009)
Passively Q-switched Nd:YAlO_3 nanosecond laser using MoS_2 as saturable absorber
Bin Xu;Yongjie Cheng;Yi Wang;Yizhong Huang.
Optics Express (2014)
Nd doped crystals for medical laser applications
R. Moncorgé;B. Chambon;J.Y. Rivoire;N. Garnier.
Optical Materials (1997)
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