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Development of Liquid Crystal Layer Thickness and Refractive Index Measurement Methods for Scattering Type Liquid Crystal Displays

A. Ozols
A. Ozols
, 
G. Mozolevskis
G. Mozolevskis
, 
R. Zalubovskis
R. Zalubovskis
 y 
M. Rutkis
M. Rutkis
   | 17 ago 2022
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Publicado en línea: 17 ago 2022
Páginas: 25 - 35
DOI: https://doi.org/10.2478/lpts-2022-0031
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© 2022 A. Ozols et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Cousins, J.R., Wilson, S.K., Mottram, N.J., Wilkes, D., Weegels, L.M., & Lin, K. (2018). A model for the formation of mura during the One-Drop-Filling process. In: 25th International Display Workshop, 12–14 December 2018, Nagoya. Search in Google Scholar

2. Valykh, S, Sorokin, S., & Chigrinov, V.G. (2015). Inline Quality Control of Liquid Crystal Cells. Journal of Display technology, 11 (12), 1042–1047.10.1109/JDT.2015.2434939 Search in Google Scholar

3. Zabels, R., Osmanis K., Ozols, A., Narels, M., Gertners, U., Smukulis, R., & Osmanis, I. (2020). Volumetric Technology: Enabling Near-Work Compatible AR Displays. Proc. SPIE 11304, Advances in Display Technologies X, 113040E, 1–9.10.1117/12.2544891 Search in Google Scholar

4. Bruyneel, F., Smet, H., Vanfleteren, J., & Calster, A. (2001). Method for Measuring the Cell Gap in Liquid-Crystal Displays. Optical Engineering, 40, 259–267.10.1117/1.1337036 Search in Google Scholar

5. Nitiss, E., Usans, R., & Rutkis, M. (2012). Simple Method for Measuring Bilayer System Optical Parameters. Proc. SPIE, Opt. Micro- Nanometrology IV 8430, 84301C-84301C–11.10.1117/12.922317 Search in Google Scholar

6. Kao, C., Tsai, S., & Lu, S. (2009). Measuring Cell Gap of Liquid Crystal Displays by Scanning White-Light Tandem Interferometry. Japanese Journal of Applied Physics, 48, 106508.10.1143/JJAP.48.106508 Search in Google Scholar

7. Li, J., Wen, C., Gauza, S., Lu, R., & Wu, S. (2005). Refractive Indices of Liquid Crystals for Display Applications. Ieee/ Osa Journal of Display Technology, 1 (1), 51–61.10.1109/JDT.2005.853357 Search in Google Scholar

8. Ding, L., Shih, W., Lin, M., Hu, Y., & Chang, P. (2012). An Analytical Model for Instant Design of an LCD Cell with Photospacers under Gravity and Local Loading. Journal of the Society for Information Display, 20 (3), 148–155.10.1889/JSID20.3.148 Search in Google Scholar

9. Feng, X., Beev, K., & Bos, P. (2019). Polarization-Independent Fast Optical Shutter with High Transmission. Applied Optics, 58 (17), 4622–4629.10.1364/AO.58.00462231251280 Search in Google Scholar

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