1) energy transmission and transformation
能量传递转换
2) energy transfer up-conversion
能量传递上转换
1.
Based the quasi-three-level rate equations,the relation formulus between the output power and the input power is deduced with consideration of the energy transfer up-conversion.
在考虑能量传递上转换的前提下,通过准三能级速率方程推导出了连续抽运Tm,Ho∶YLF激光器输出功率与抽运功率关系的表达式。
2.
Based the energy transfer between ions and the transition between energy levels of diode-end-pumped Tm,Ho:YLF laser,and considering the energy transfer up-conversion and ground state re-absorption,the rate equations are set up.
根据激光二极管纵向抽运Tm,Ho:YLF激光器的能级跃迁和能量传递过程,在考虑能量传递上转换和基态重吸收的前提下,建立了准三能级速率方程理论模型。
3.
Based the energy transfer between energy levels and the transition between ions of diode-end-pumped Tm,Ho:YLF laser, with consideration of energy transfer up-conversion, the rate equations of Tm,Ho:YLF Q-switched laser are given, and the analytical formulas of single pulse energy is deduced from the rate-equations.
根据激光二极管纵向抽运Tm,Ho:YLF激光器的能级跃迁和能量传递过程,在考虑能量传递上转换(ETU)的情况下,建立了Tm,Ho:YLF主动调Q激光器的准三能级速率方程,得出了激光单脉冲能量的解析表达式。
3) energy transfer and conversion
能量传递和转换
1.
Multiplying the balance equation of a basic extensive quantity by the conjugate basic intensive quantity,a generalized dynamic equation of energy transfer and conversion is derived,which indicates the transfer and conversion relation between any specified form of energy and the others.
利用基本强度量乘以与其共轭的基本广延量的平衡方程,导出了能量传递和转换的普遍化动力学分解关系。
4) energy transport and conversion
能量传递与转化
1.
To reflect the complexity and prosperity of current chemical engineering practice,it is recommended to apply mass transport and conversion, energy transport and conversion,and information transport an.
简述了化学工程科学发展的主要成果 ,重点介绍了近期发展的“产品工程”、化学工程中的尺度问题及化工过程“场”和“流”分析等方面的进展及其对化学工程科学内容的贡献 ;提出以“质量传递与转化” ,“能量传递与转化”及“信息传递与转化”来描述现代化学工程学科体系。
5) Energy transfer
能量传递
1.
Effects on exciton confinement and energy transfer in nano-line of low dimension polymer;
低维聚合物纳米线中的激子限域和能量传递效应研究
2.
Thermodynamic criteria for optimum design of energy transfer systems;
能量传递系统强化的热力学判据
3.
Analysis of energy transfer in Eu~(2+) activated aluminate phosphor;
Eu~(2+)激活在几种铝酸盐荧光体中能量传递过程的分析
补充资料:能量传递
分子式:
CAS号:
性质:简称传能。是分子通过碰撞进行的能量传递、转移或交换的现象。能量传递可发生在同一自由度或不同自由度之间。例如仅发生平动-平动能量交换的碰撞为弹性碰撞。其他的传能方式有:转动-平动、转动-转动、振动-振动、振动-平动、振动-转动等在同一势能面上进行的传能以及电子-平动、电子-振动和电子-电子等涉及物种电子态变化的传能。
CAS号:
性质:简称传能。是分子通过碰撞进行的能量传递、转移或交换的现象。能量传递可发生在同一自由度或不同自由度之间。例如仅发生平动-平动能量交换的碰撞为弹性碰撞。其他的传能方式有:转动-平动、转动-转动、振动-振动、振动-平动、振动-转动等在同一势能面上进行的传能以及电子-平动、电子-振动和电子-电子等涉及物种电子态变化的传能。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条