1·Fluorescent lights use electricity to excite mercury vapor. This produces ultraviolet light that causes a phosphor coating inside the bulb to glow.
荧光灯用电激发水银蒸气。这会生成紫外线光而使得镀在灯管内壁上的磷涂层发光.
2·Excited by the current, the mercury atoms emit ultraviolet light, which bombards the phosphor coating on the inside of the tube.
被电流激活后,汞原子发出紫外光,轰击被覆在电子管内部的磷。
3·The simplest and most common way is to coat a blue LED with a yellow phosphor.
最简单也最普通就是在蓝色LED上罩一层黄色的磷。
4·This strikes the phosphor on the glass walls and makes it glow brightly.
当管壁上的磷粉碰到紫外线时,便能产生明亮的辉光。这就是荧光管的原理。
5·These can be made to emit white light by coating the device with a phosphor compound that absorbs part of the blue light and re-emits it as yellow.
只要为发光装置加上磷化合物涂层,吸收蓝光,重新发出的光线即呈黄色。
1·In general, with the use of phosphor, the wavelength converting element 110 is able to absorb light at all angles.
一般而言,使用磷光体,波长转换元件110能够吸收所有角度的光。
2·This is particularly true in systems that convert light emitted from LEDs, e. g., using phosphor, to other wavelengths in order to produce white light.
在(例如)使用磷光体将从LED发射的光转换成其它波长以便产生白光的系统中尤为如此。
3·The metal oxide layer acts as a protecting layer to prevent deterioration of the phosphor due to ion bombardment.
该金属氧化物层起保护层的作 用,以防止因离子轰击而破坏该磷光体。
4·In step four, a layer of conductive ITO ink is applied to cover the layer of EL phosphor ink.
在第四步骤,涂一层导电ito油墨,以覆盖el磷光体油墨层。
5·The phosphor for a PDP has a continuous crystalline layer composed of a positively charged metal oxide such as yttrium oxide, and thus has better surface properties.
用于PDP的该磷光体具有由带正电金属氧化物例如氧化钇构 成的连续晶体层,并因此具有较好的表面特性。