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- low energy photon detector (LEPD) [化] 低能光子探测器
- low energy photon detector 低能光子探测器
- Our theories propose that the universal speed is the speed of very low energy photons or, equivalently, long-wavelength light. 我们的理论主张,原来狭义相对论中,那个不变的光速是能量非常低(或是波长非常长)的光子,才具有的速率。
- Keywords low energy photon;backscattering;high-temperature;scanning thickness measuring.; 低能光子;反散射;高温扫描测厚;
- low energy photon 低能光子
- low energy photon event 低能质子事件
- Rotational quenching of LiH by Ne at low energy[J]. 引用该论文 黄武英;凤尔银;崔执凤;张为俊.
- Based on the ideal photon detector and ideal thermal detector, the relationship between NETD and NEED is studied. 针对理想光子探测器和理想热探测器,探讨了显微热成像系统的NETD和NEED的关系。
- We could, in fact, arrange to do just that by having the final screen not too far from the slits and the photon detector much farther away. 事实上我们可以将最后一道屏幕摆在离狭缝不远的地方,而光子侦测器的位置则摆得远多了。
- Dr Shields's photon detector, however, permits cryptographers to use a phenomenon called quantum entanglement to make a repeater that does not destroy quantum states. 史立德博士的光子探测器允许密码器利用一种叫量子纠结的现象来建立中继器,而又不破坏量子形态。
- Low energy cost is only weakly related to energy efficiency. 但最低能耗费用与能效只有微弱的联系。
- Low energy monochromator with high resolution and flux. 高分辨和高流强的低能单色器。
- A relatively high - energy photon with wavelength in the approximate range from0.01to10nanometers. X光一种相对的高能光,波长在0。01毫微米(埃)到100毫微米(埃)之间
- A high quality beam has low emittance and low energy dispersion. 良好的束流轨道可以获得低发射度、低能散的高品质束流。
- Design of passive and low energy housing; thermal building physics. 被动式节能及低耗能住宅设计;建筑热工物理。
- Belite cement gets attention because of its low energy consumption. 贝利特水泥由于能耗低而逐渐引起人们的关注。
- With high energy photon beam attenuated by the couch insert and immobilization devices, the skin sparing effect will be reduced. 当高能光子射束穿过治疗床及固定模具而衰减时,会造成皮肤免除效应降低。
- Low energy and emergency ESWL have obtained satisfactory results. 作低能及急诊ESWL治疗疗效满意。
- Investigation of Biostimulation Mechanism with Low Energy Laser[J]. 引用该论文 杨玉东;梁勇.
- Nowadays, the luminescent devices have been shown to advance towards higher exciting energy including excitation of higher energy density and higher energy photon. 从不同材料在高能量密度激发下在激发、传递和发光等不同阶段中的效率变化 ,了解各种材料在高密度激发时的能量损失的主要环节 ,分清基质和发光中心的选择原则。
