Mid to far-infrared diamond Raman laser systems and methods
- Summary
- 2-4 micron laser pump light converted to 5-12 micron wavelengths using synthetic diamond.
- Technology Benefits
- Ultra high-power
Customised outputs
Eye safer, lower user risk
Low Blooming/High Atmospheric Penetration
'Bolt on' Technology - an be used with an existing development platform.
- Technology Application
- Counter UAV/drone/swarm destruction systems.
Anti-missile defence systems.
Remote IED destruction.
Anti-shell and anti-mortars.
Land and air combat weapons.
Ship defence systems.
Passive (eg orbital debris) and aggressive space-born threats.
- Detailed Technology Description
- A mid- to far-infrared solid state Raman laser system comprising a resonator cavity comprising: an input reflector adapted to be highly transmissive for light with a first wavelength in the range of about 3 to about 7 .5 micrometers for admitting the first beam to the resonator cavity; and an output reflector adapted to be partially transmissive for light with a second wavelength greater than about 5.5 micrometers for resonating the second wavelength in the resonator and for outputting an output beam, the input reflector further being adapted to be highly reflective at the second wavelength for resonating the second wavelength in the resonator; and a solid state diamond Raman material located in the resonator cavity for Raman shifting the pump beam and generating the second wavelength.
- Type of Cooperation
- Licensing
- Application No.
- WO/2011/103630
- ID No.
- 2009001
- Country/Region
- Australia
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