中文摘要：

New materials have been developed for PDP for fast addressing and power reduction.They show the transition in R＆D from materials invented accidentally to materials-by-design.Cathode-luminescence on MgO crystals is used to compare thermally assisted recombination and tunneling.Bethe Salpeter equations（BSE） are used to predict the exciton properties of mixed oxides like MgCaO.Using new materials an ultra-thin（300 μm） and flexible Shadow-Mask PDP has been realized.The same device is also operated in a reverse mode,where high energy radiation is imaged,using the Gaseous Electron Multiplier（GEM） effect in the Townsend mode

英文摘要：

New materials have been developed for PDP for fast addressing and power reduction.They show the transition in RD from materials invented accidentally to materials-by-design.Cathode-luminescence on MgO crystals is used to compare thermally assisted recombination and tunneling.Bethe Salpeter equations（BSE） are used to predict the exciton properties of mixed oxides like MgCaO.Using new materials an ultra-thin（300 μm） and flexible Shadow-Mask PDP has been realized.The same device is also operated in a reverse mode,where high energy radiation is imaged,using the Gaseous Electron Multiplier（GEM） effect in the Townsend mode