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Speckle-Free, Angle-Free, Cavity-Free White Laser with a High Color Rendering Index.

Cheng-Fu HouWei-An TsuiRou-Jun ChouChih-Hao HsuDenice Navat FeriaTai-Yuan LinYang-Fang Chen
Published in: ACS applied materials & interfaces (2024)
The freedom from efficiency droop motivates monochromatic lasers to progress in general lighting applications due to the demand for more efficient and sustainable light sources. Still, a white light based on monochromatic lasers with high lighting quality, such as a high color rendering ability, an angle-independent output, and a speckle-free illumination, has not yet been fabricated nor demonstrated. Random lasers, with the special mechanism caused by multiple scattering, the angle-free emission, and the uncomplicated fabrication processes, inspire us to investigate the feasibility of utilizing them in general lighting. In this work, a white random laser with a high color rendering index (CRI) value, regardless of pumping energy and observing direction, was performed and discussed. We also investigated the stability of white RL as its CIE chromaticity coordinates exhibit negligible differences with increasing pump energy density, retaining its high-CRI measurement. Also, it exhibits angle-independent emission while having a high color rendering ability. After passing through a scattering film, it generated no speckles compared to the conventional laser. We demonstrated the advances in white laser illumination, showing that a white random laser is promising to be applied for high-brightness illumination, biological-friendly lighting, accurate color selections, and medical sensing.
Keyphrases
  • high resolution
  • healthcare
  • magnetic resonance imaging
  • computed tomography
  • quality improvement
  • image quality
  • tissue engineering