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Diode-pumped Pr:YLF crystals are premier solid-state materials for generating direct 640 nm red, 522 nm green, and 607 nm orange, or 720 nm dark red laser emission, particularly in the picosecond regime. They are effectively pumped in the blue region (around 444-448 nm) using InGaN diodes, enabling high-power, compact, visible, and even UV light sources.
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Scholarly articles for Diode-pumped Picosecond 640 Pr:YLF laser crystals | |
Diode-pumped 640 nm Pr: YLF regenerative laser … - Sugiyama - Cited by 26 640-nm Pr: YLF regenerative amplifier seeded by gain- … - Hara - Cited by 9 | |
Web results
Diode-pumped Picosecond 640-nm Pr:YLF Regenerative ...
Optica Publishing Group
https://opg.optica.org › abstract
Optica Publishing Group
https://opg.optica.org › abstract
by F Kannari2019 — We demonstrated generative picosecond laser pulse amplification at 640 nm for the first time using a Pr3+:YLF crystal, which was continuously pumped by an ...Read more
OEM/ODM Diode-pumped Visible Pr:YLF Laser Crystal
HG Optronics.,INC.
https://www.hgoptronics.com › diode-pumped-visible-p...
HG Optronics.,INC.
https://www.hgoptronics.com › diode-pumped-visible-p...
Pr3+:YLF has been found as promising laser material for producing visible lasers directly and UV lasers through intracavity second-harmonic generation. Very few ...Read more
Diode pumped Pr:Ylf-Laser emitting at 640, 607 and 523nm.
sci-projects.org
https://www.sci-projects.org › blog › diode-pumped-pryl...
sci-projects.org
https://www.sci-projects.org › blog › diode-pumped-pryl...
Feb 17, 2022 — In this article, I describe the design, construction and operation of a DPSS Pr:Ylf Laser which emits green, orange, and red laserlight.
Diode-pumped 640 Nm Pr:YLF Regenerative Laser Pulse ...
National Institutes of Health (.gov)
https://pubmed.ncbi.nlm.nih.gov › ...
National Institutes of Health (.gov)
https://pubmed.ncbi.nlm.nih.gov › ...
by N Sugiyama2019Cited by 26 — A regenerative amplifier with a Pr3+:YLF crystal was continuously pumped by a multimode InGaN diode laser. At an absorbed pump power of 3.1 W, ...Read more
Diode-pumped Picosecond 640-nm Pr:YLF Regenerative ...
Optica Publishing Group
https://opg.optica.org › viewmedia
Optica Publishing Group
https://opg.optica.org › viewmedia
by F Kannari2019 — Introduction. The most promising visibly emitting laser materials are praseodymium (Pr)-doped fluorides, especially LiYF4. (YLF) crystal.Read more
Diode-pumped visible and UV Pr:YLF laser
4Lasers
https://4lasers.com › setups › Diode-pumped visible and...
4Lasers
https://4lasers.com › setups › Diode-pumped visible and...
As a pump source four single-emitter laser diodes, each emitting a maximum output power of 5 W in the central wavelength of 442 nm and 444 nm are used.Read more
Diode-pumped Picosecond 640-nm Pr:YLF Regenerative ...
Semantic Scholar
https://www.semanticscholar.org › paper › Diode-pump...
Semantic Scholar
https://www.semanticscholar.org › paper › Diode-pump...
We demonstrated generative picosecond laser pulse amplification at 640 nm for the first time using a Pr3+:YLF crystal, which was continuously pumped by an ...
Manual UM-LE10 Blue Diode Pumped Pr:YLF Laser - LUHS
luhs.de
https://luhs.de › Manuals › UM-LE10
luhs.de
https://luhs.de › Manuals › UM-LE10
PDF
The host crystal is a transparent corundum crystal also known as Aluminium oxide (Al2O3). The Chromium dopant replaces some Aluminium atoms thus changing the.Read more
27 pages
A diode-pumped femtosecond Pr:YLF laser emitting at the ...
ScienceDirect.com
https://www.sciencedirect.com › article › abs › pii
ScienceDirect.com
https://www.sciencedirect.com › article › abs › pii
by S Luo2022Cited by 2 — A NIR femtosecond laser composed of a diode-pumped Pr:YLF is demonstrated by targeting the emission line of 915-nm and employing the GTI mirrors.Read more
Nik's Pr:YLF 640, 607 and 523 nm Laser Project
laserdiscourse.org
https://www.laserdiscourse.org › niks-pr-ylf-640-607-a...
laserdiscourse.org
https://www.laserdiscourse.org › niks-pr-ylf-640-607-a...
Jun 5, 2022 — As a pump source four single-emitter laser diodes, each emitting a maximum output power of 5 W in the central wavelength of 442 nm and 444 nm ...Read more