Fresnel Lens Solar Pumping for Uniform and Stable Emission of Six Sustainable Laser Beams under Non-Continuous Solar Tracking

Vistas, Cláudia R.; Liang, Dawei; Catela, Miguel; Costa, Hugo; Garcia, Dário; Tibúrcio, Bruno D.; Almeida, Joana

doi:10.3390/su15108218

Cited by 4 publications

(1 citation statement)

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“…1 Recent results on multirod solar lasers. 12,14,15,18,20,21 Sherniyozov, Payziyev, and Begimqulov: Enhancing solar laser performance. .…”

Section: Description Of the Solar Laser Multirod Modelmentioning

confidence: 99%

Enhancing solar laser performance through multirod configurations

Sherniyozov,

Payziyev,

Begimqulov

2024

J. Photon. Energy

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We investigated the efficacy of multirod configurations in end-side pumped solar lasers using simulation studies. Employing a Monte-Carlo photon tracing technique, we developed a simulation model for a three-rod solar laser, validated and calibrated with recent experimental data. Our study of various multirod patterns identified configurations with three and seven rods as promising alternatives to single rods. Multirod solar laser systems showed notable enhancements in laser output power, doubling the output when compared. This substantial improvement was attributed to factors including pumping distributions, resonator losses, and thermal effects. We also addressed technical challenges associated with multiple rod configurations, proposing potential solutions. Our findings emphasize the potential of multirod configurations for enhancing solar laser performance.

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“…1 Recent results on multirod solar lasers. 12,14,15,18,20,21 Sherniyozov, Payziyev, and Begimqulov: Enhancing solar laser performance. .…”

Section: Description Of the Solar Laser Multirod Modelmentioning

confidence: 99%

Enhancing solar laser performance through multirod configurations

Sherniyozov,

Payziyev,

Begimqulov

2024

J. Photon. Energy

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Solar-pumped dual-rod Ce:Nd:YAG laser with 58 W continuous-wave output power and 5.1° tracking error compensation width

Almeida,

Liang,

Catela

et al. 2023

Opt. Express

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The pursuit of high-power solar laser systems with high efficiency and capacity for large tracking error compensation is determinant for the applicability of this renewable technology. A side-pumped dual-rod Ce:Nd:YAG solar laser was developed and tested at the focus of a 2 m diameter parabolic concentrator. Maximum continuous-wave total solar laser power of 58 W was measured. To the best of our knowledge, this is the highest laser power from a Ce:NdYAG solar laser. Moreover, wide tracking error compensation width of 5.1° in the azimuthal direction was reached, being 4.25 times higher than the previous measurement without solar tracking assistance.

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