Orthogonal and secondary concentration in planar micro-optic solar collectors

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Planar micro-optic concentrators are passive optical structures which combine a lens array with faceted microstructures to couple sunlight into a planar slab waveguide. Guided rays propagate within the slab to edge-mounted photovoltaic cells. This paper provides analysis and preliminary experiments describing modifications and additions to the geometry which increase concentration ratios along both the vertical and orthogonal waveguide axes. We present simulated results for a 900x concentrator with 85% optical efficiency, measured results for small-scale experimental systems and briefly discuss implementations using low-cost fabrication on continuous planar waveguides.

Orthogonal and secondary concentration in planar micro-optic solar collectors

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Parametric Wavelength Conversion in Waveguiding Structures: Efficiency, Bandwidth and Polarization

3D diffractive optics for linear interconnects and nonlinear processing

Laser-based manufacturing of freeform glass micro-optics through topological transformation

Parametric Wavelength Conversion in Waveguiding Structures: Efficiency, Bandwidth and Polarization

3D diffractive optics for linear interconnects and nonlinear processing

Laser-based manufacturing of freeform glass micro-optics through topological transformation