摘要:
The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode.
摘要:
The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode.
摘要:
The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode.
摘要:
The present invention provides an organic LED element in which the extraction efficiency is improved up to 80% of emitted light. Further, the invention relates to an electrode-attached translucent substrate having a translucent substrate, a scattering layer formed over the glass substrate and containing a base material having a first refractive index for at least one wavelength of wavelengths of emitted light of an organic LED element and a plurality of scattering materials positioned in the base material and having a second refractive index different from that of the base material, and a translucent electrode formed over the scattering layer and having a third refractive index equal to or lower than the first refractive index, in which distribution of the scattering materials in the scattering layer decreases from the inside of the scattering layer toward the translucent electrode.
摘要:
An object of the invention is to provide an optical glass for precision press having optical properties of a high refractive index and a low dispersion property and having a low molding temperature, a high devitrification resistance, an excellent molding property, and a small specific gravity. The optical glass of the invention contains, in terms of % by mass on the basis of oxides, respective components of B2O3: 10 to 20%, SiO2: 0.5 to 12%, La2O3: 25 to 50%, Gd2O3: 0 to 20%, Y2O3: 0 to 20%, provided that La2O3+Gd2O3+Y2O3: 35 to 60%, ZnO: 5 to 20%, Li2O: 0.2 to 3%, ZrO2: 0 to 0.5%, Ta2O5: 3 to 18% and WO3: 3 to 20%, and has optical constants of a refractive index nd of 1.84 to 1.86 and an Abbe number vd of 37 to 42 and a glass transition point (Tg) of 630° C. or lower.
摘要翻译:本发明的目的是提供一种具有高折射率和低分散性的光学特性的精密压制用光学玻璃,具有低的成型温度,高的耐失透性,优异的成型性和小的比重。 本发明的光学玻璃以氧化物为基准的质量%含有B 2 O 3:10〜20%,SiO 2 :0.5〜12%,La 2 O 3:25〜50%,Gd 2 O 3:0〜20% ,Y2O3:0〜20%,条件是La2O3 + Gd2O3 + Y2O3:35〜60%,ZnO:5〜20%,Li2O:0.2〜3%,ZrO2:0〜0.5%,Ta2O5:3〜18% :3〜20%,折射率nd为1.84〜1.86,阿贝数vd为37〜42,玻璃化转变点(Tg)为630℃以下的光学常数。
摘要:
An object of the invention is to provide an optical glass for precision press having optical properties of a high refractive index and a low dispersion property and having a low molding temperature, a high devitrification resistance, an excellent molding property, and a small specific gravity. The optical glass of the invention contains, in terms of % by mass on the basis of oxides, respective components of B2O3: 10 to 20%, SiO2: 0.5 to 12%, La2O3: 25 to 50%, Gd2O3: 0 to 20%, Y2O3: 0 to 20%, provided that La2O3+Gd2O3+Y2O3: 35 to 60%, ZnO: 5 to 20%, Li2O: 0.2 to 3%, ZrO2: 0 to 0.5%, Ta2O5: 3 to 18% and WO3: 3 to 20%, and has optical constants of a refractive index nd of 1.84 to 1.86 and an Abbe number vd of 37 to 42 and a glass transition point (Tg) of 630° C. or lower.
摘要翻译:本发明的目的是提供一种具有高折射率和低分散性的光学特性的精密压制用光学玻璃,具有低的成型温度,高的耐失透性,优异的成型性和小的比重。 本发明的光学玻璃以氧化物为基准的质量%含有B 2 O 3:10〜20%,SiO 2 :0.5〜12%,La 2 O 3:25〜50%,Gd 2 O 3:0〜20% ,Y2O3:0〜20%,条件是La2O3 + Gd2O3 + Y2O3:35〜60%,ZnO:5〜20%,Li2O:0.2〜3%,ZrO2:0〜0.5%,Ta2O5:3〜18% :3〜20%,折射率nd为1.84〜1.86,阿贝数vd为37〜42,玻璃化转变点(Tg)为630℃以下的光学常数。
摘要:
Glass comprising, as represented by mole percentage based on the following oxides, from 50 to 75% of SiO2, from 1 to 15% of Al2O3, from 6 to 21% of Na2O, from 0 to 15% of K2O, from 0 to 15% of MgO, from 0 to 20% of CaO, from 0 to 21% of ΣRO (wherein R is Mg, Ca, Sr, Ba and/or Zn), from 0 to 5% of ZrO2, from 1.5 to 6% of Fe2O3, and from 0.1 to 1% of Co3O4.
摘要翻译:玻璃包含以下列氧化物为基准的摩尔百分比:50至75%的SiO 2,1至15%的Al 2 O 3,6至21%的Na 2 O,0至15%的K 2 O,0至15 0〜20%的CaO,0〜21%的RO(其中R是Mg,Ca,Sr,Ba和/或Zn),0〜5%的ZrO 2,1.5〜6 的Fe 2 O 3,以及0.1〜1%的Co 3 O 4。
摘要:
Glass comprising, as represented by mole percentage based on the following oxides, from 50 to 75% of SiO2, from 1 to 15% of Al2O3, from 6 to 21% of Na2O, from 0 to 15% of K2O, from 0 to 15% of MgO, from 0 to 20% of CaO, from 0 to 21% of ΣRO (wherein R is Mg, Ca, Sr, Ba and/or Zn), from 0 to 5% of ZrO2, from 1.5 to 6% of Fe2O3, and from 0.1 to 1% of Co3O4.
摘要翻译:玻璃包含以下列氧化物为基准的摩尔百分比:50至75%的SiO 2,1至15%的Al 2 O 3,6至21%的Na 2 O,0至15%的K 2 O,0至15 0〜20%的CaO,0〜21%的RO(其中R是Mg,Ca,Sr,Ba和/或Zn),0〜5%的ZrO 2,1.5〜6 的Fe 2 O 3,以及0.1〜1%的Co 3 O 4。
摘要:
A liquid crystal display apparatus (1) wherein the shift registers of a source driver (4) are configured by use of asynchronous RS flip-flops in which an active input to a set input terminal has a higher priority than an active input to a reset terminal. In a second mode of operation, first and second clock signals and a start pulse are fixed at high levels, thereby performing discharges from all the pixels (PIX) of a liquid crystal panel (2).
摘要:
A scanning probe microscope probe is produced by depositing a raw-material film on the surface of a cone made of Si, etc. and growing a needle-like crystal by using the raw-material film by irradiating an energy beam to a point on the cone at a predetermined distance along the side surface from the cone tip under such conditions as not to melt the cone. Also, a charge density wave quantum phase microscope is provided which uses a probe made of a charge density wave crystal. Also, a charge density wave quantum interferometer is provided which uses the needle-like crystal formed from the charge density wave crystal. Also, the scanning probe microscope probe is formed from a pressure-induced superconducting substance.