References
- J. P. Boeuf, "Plasma display panels: physics, recent developments and key issues," J. Phys. D: Appl. Phys. 36, R53-R79, 2003.
- G. Oversluizen, et. al. "Dependence of PDP efficacy on the gas pressure," IDW '00, pp.631-634, 2000.
- T.Yoshioka, et. al. "A high luminance and high luminous efficiency AC-PDP using high Xe-content gas mixture," IDW '00, pp.611-614, 2000.
- T. Minami, et. al. "Low Voltage Drive of High Xe-Content, High-Efficiency PDPs," Eurodisplay'02, pp.65-68, 2002.
- Y. Motoyama, et. al. "SrCaO protective layer for high-efficiency PDPs," IEEE Trans. Electron Device , 54, 6, pp.1308-1314, 2007. https://doi.org/10.1109/TED.2007.896363
- H.-Y. Jung, et. al. "Realization of high luminous efficacy at low voltages in the plasma display panel with SrO-MgO double layer," IEEE Electron Device Lett., 31, 7, pp.686-688, 2010. https://doi.org/10.1109/LED.2010.2047236
- T.-H. Lee, et. al. "The role of a diffusion barrier in plasma display panel with the high gamma cathode layer," Appl. Phys. Lett., 99, 171501, 2011. https://doi.org/10.1063/1.3655329
- H. Kajiyama, et. al. "PDP Researches at Hirohima University," IMID '08, pp.1613-1616, 2008.
- G. Uchida, et. al. "Discharge analysis of SrO- and SrCaO-PDP operated at lower voltage," IMID '09, pp.177-180, 2009.
- O. Kwon, et. al. "Mechanism of high luminous efficacy in plasma display panel with high secondary electron emission coefficient cathode material analyzed through three-dimensional fluid model simulation," J. Appl. Phys., 110, 043303, 2011. https://doi.org/10.1063/1.3626455
- Y. Motoyama, et. al. "Carbnation Reaction of (Ca, Mg)O Protective Layer on PDPs," SID '12, pp.149-152, 2012.
- S. Y. Kim, et. al. "Characteristics of AC PDPs with (Mg, Ca)O Thin-Film Layer Sealed Under Reducing Atmosphere," SID '12, pp.153-156, 2012.
- T. Zukawa, et. al. "Development of MgCaO Protective Layer of PDPs for Decreased Discharge Voltage," SID '12, pp.165-167, 2012.
- K. Yoshikawa, Proc. Japan Display '92 , pp.605-608, Hiroshima, 1992.
- J. S. Kim, "Comparison of Electric Field and Priming Particle Effects on Address Discharge Time Lag and Addressing Characteristics of High-Xe Content AC PDP", IEEE Trans. Plasma Sci., 31, 5, pp.1083-1090, 2003. https://doi.org/10.1109/TPS.2003.818763
- K. W. Whang, et. al. "Fast-Addressing Waveform with Negative-Going Ramp for High-Xe PDPwith High-Gamma Cathode Materials," SID '12 , pp.60-63, 2012.
- L. F. Weber, "Positive column plasma display", U. S. patent 6184848 , 2001.
- H. W. Cheong, et. al. "Address Discharge Characteristics of AC PDP with High Gamma Cathode Material," IMID '11, pp.855-856, 2011.
- M. Amatsuchi et. al. " Discharge Time Lag Shortening by Using a New Material Layer in AC PDP", IDW '05, pp.435-438, 2005.
- T. Okada, T. Naoi, and T. yoshioka, "Decay kinetics of luminescence and electron emission from MgO crystal powders in ac plasma display panel," Journal of Applied Physics, 105, 113304, 2009. https://doi.org/10.1063/1.3140605
- T. Naoi, H. Lin, A. Hirota, E. Otani, and K. Amemiya,"Improved discharge characteristics using MgO singlecrystal particles and advanced CEL structure," Journal of the SID , 17, 2, pp.113-119, 2009.
- H. Tolner "Exo-electron Emission effects in the PDP protective layer" Proc. Of ASID'06, pp.136-143, 2006.