Optimized Optical Pumping for Brighter Plasma Light Sources
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Summary
Problems
Current laser-sustained plasma light sources are limited in brightness due to insufficient pumping of the hotter core region of the plasma, as increased pumping power primarily heats the cooler exterior regions.
Innovation solutions
A method and apparatus that focus illumination of specific wavelengths tuned to absorption lines of the plasma species, preferentially delivering energy to the hotter core region, while minimizing energy absorption in the cooler exterior regions, thereby enhancing plasma brightness.
TRIZ Analysis
Specific contradictions:
General conflict description:
Principle concept:
If pumping power is increased, then plasma size increases, but core temperature remains relatively unchanged
Why choose this principle:
The patent applies local quality by selecting specific wavelengths that are preferentially absorbed in the hotter core region rather than uniformly distributed. By tuning the laser wavelength to match absorption lines of plasma species at core temperatures, the energy deposition becomes spatially selective, heating the core region more effectively while minimizing heating of the cooler exterior regions.
Principle concept:
If pumping power is increased, then plasma brightness increases, but energy efficiency decreases
Why choose this principle:
The patent changes the parameter of pumping wavelength to optimize energy coupling. By selecting wavelengths that correspond to absorption lines of plasma species at core temperatures, the system achieves more efficient energy transfer to the plasma core, increasing brightness while reducing wasted energy in cooler exterior regions.
Application Domain
Data Source
AI summary:
A method and apparatus that focus illumination of specific wavelengths tuned to absorption lines of the plasma species, preferentially delivering energy to the hotter core region, while minimizing energy absorption in the cooler exterior regions, thereby enhancing plasma brightness.
Abstract
A method for sustaining a plasma includes providing a volume of a gas; generating illumination of a first selected wavelength; and forming a first plasma species in a first region of the gas and a second plasma species in a second region of the gas by focusing the illumination of the first wavelength into the volume of gas, the first region having a first average temperature and a first size, the second region having a second average temperature and a second size, the illumination of the first selected wavelength transmitted by the second plasma species, the illumination of the first selected wavelength absorbed by the first plasma species by tuning the first selected wavelength of the illumination to an absorption line of the first plasma species, the absorption line being associated with an ionic absorption transition or an excited neutral transition of the first plasma species.