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Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Transmission of light rays through an optically transparent wave guide. (a) Side.

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Presentation on theme: "Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Transmission of light rays through an optically transparent wave guide. (a) Side."— Presentation transcript:

1 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Transmission of light rays through an optically transparent wave guide. (a) Side view of a LGP with micropatterned surface (lights rays tend to exit from side opposite micropatterns). (b) Geometry of a single round-tip cylindrical micro-optical structure (MOS). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

2 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. The illumination patterns for LGPs with round-tip cylindrical MOSs located at the Y-axis mid-point of the wave-guide. Each MOS has a depth of 0.5 mm and the illumination is provided along the top edge (nine LEDs spaced 12 mm apart). (a) Single MOS. (b) Three MOSs. (c) Five MOSs. (d) Nine MOSs. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

3 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. The cross-sectional views of the light intensity profiles given in Fig. 2. (a) X-X′ cross-sections with respect to the MOS distribution. (b) Y-Y′ cross-sections with respect to the MOS distribution. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

4 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. The illumination patterns for LGPs with one or more rows of 26 identical microstructures starting near the middle of the wave guide. Each microstructure has a depth of 0.5 mm and the illumination is provided along the top edge (nine LEDs spaced 12 mm apart). (a) Single row of MOSs. (b) Three rows of MOSs. (c) Five rows of MOSs. (d) Nine rows of MOSs. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

5 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. The cross-sectional views of the light-intensity profiles given in Fig. 4. (a) X-X′ cross-sections with respect to the microstructures distribution. (b) Y-Y′ cross-sections with respect to the microstructures distribution (light travels from left to right). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

6 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Experimental set-up used to measure the luminance characteristics of the micromilled LGP samples. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

7 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Measured illumination pattern of the micromilled LGP sample with optimally distributed MOSs. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

8 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Micromilling fabrication and verification of microstructure surfaces. (a) Photograph showing the fabrication of the round-tip cylindrical MOSs on the prototype LGP. (b) 3-D geometry, cross-section, and two surface profiles. Average surface roughness was ∼ 78 nmRa (near optical quality surface finish). Note that the waviness may be the result of deflections in the machine-cutting tool, errors in the tool geometry, and machine vibrations. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

9 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Change in depth of MOSs over the length of the LGP for the proposed optimization approach. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

10 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Illumination pattern and cross-sectional profiles for a hexagonal arrangement of microstructures. Each microstructure has a radius of 0.5 mm and the illumination is provided along the top edge (9 LEDs spaced 12 mm apart). (a) Illumination pattern of the LGP for uniform depth of 0.5 mm. (b) Illumination pattern of the LGP for linearly varying depth from 0.1 mm at the light source to a microstructure depth of 5.5 mm at the distant end. (c) X-X′ illumination profiles. (d) Y-Y′ illumination profiles (light travels from left to right). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

11 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. (a) LGP with a hexagonal array of equal-sized cylindrical microstructures. The patterned array was created using a ball-end micromill with a fixed radius (0.5 mm) and hexagonal arrangement (pitch Δx=1 mm, Δy=1 mm). (b) Fill factor calculation for hexagonal array arrangement of microstructures (adapted from Ref 10). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

12 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Illumination of a fabricated LGP with (a) no MOSs on the patterned surface and (b) LGP with optimized array of MOSs (with varying depth of MOS). The illumination pattern for the optimized array is similar to Fig. 9(a). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

13 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Illumination results for a (100×100×6 mm3) LGP with predefined MOS patterns. (a) Uniform illumination over selected region near the center of panel. (b) Illumination of the NRC-UWO logo. Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

14 Date of download: 7/7/2016 Copyright © 2016 SPIE. All rights reserved. Near-uniform illumination for an LGP with microstructures distributed “optimally” from light entrance edge to opposite distance edge. (a) Illumination pattern on the active surface for LGP after selecting “optimal” MOS depths. (b) X-X′ illumination profile. (c) Y-Y′ illumination profile (light travels from left to right). Figure Legend: From: Micromilled optical elements for edge-lit illumination panels J. Micro/Nanolith. MEMS MOEMS. 2013;12(2):023002-023002. doi:10.1117/1.JMM.12.2.023002

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