The dynamic process for ion extraction in laser isotope separation is studied.
本文研究了激光同位素中离子取出的动力学过程。
Advances in boron10 isotope separation by chemical exchange distillation are reviewed.
综述了化学交换精馏法分离同位素硼10的技术进展。
Great changes of uranium isotope separation methods have been made in the past 10 years.
近十年来,铀同位素分离方法发生了很大变化。
The Transversely Excited Atmospheric pressure (TEA) CO_2 laser has been widely applied in multi-photon excitation and isotope separation.
可调谐TEA CO_2激光器被广泛应用于激光分离同位素和多光子对物质的激发。
Three methods for mercury isotope separation and the development of research on this isotope separation and its application have been reported.
本文报导了汞同位素分离的三种方法及国外对汞同位素分离及其应用研究的进展。
The atomic density and velocity distribution in the laser excitation zone is very important for the atomic vapor laser isotope separation (AVLIS).
在激光同位素分离中,激光作用区内原子的密度和速度分布对分离过程有重要影响。
The results can be used to optimize alloy components, temperature, pressure and other experimental parameters for hydrogen purification and isotope separation.
该结果可用于优化氢纯化或氢同位素分离中使用的合金组份以及外加温度和气压等条件。
Selectivity and excitation rate of laser isotope separation can be enhanced by using the coherent selective Doppler-free two-photon excitation with intermediate resonant level.
利用具有中间共振能级的无多普勒双光子相干选择激发来提高激光同位素分离的选择性和激发速率。
Among all hydrogen isotope separation technologies, Thermal Cycling Absorption process (TCAP), a semi-continuous hydrogen isotope separation process, is of many unique advantages.
热循环吸附工艺(TCAP)是一种半连续的氢同位素分离方法,在分离氢同位素方面有许多独特的优越性。
In this paper, a short outline of general principles and methods of laser isotope separation is discussed. A general review is made on methods and progress of uranium isotope separation.
本文概述了激光分离同位素的一般原理和方法,并对分离铀同位素的方法和进展作了评述。
The sources and sinks are used to simulate the mechanical drives and the drives of the feed and withdrawals in the simulation of the flow field of a gas centrifuge for isotope separation.
用源汇模拟同位素分离气体离心机流场的供取料驱动和机械驱动是离心机流场计算中的方法之一。
The article contains the derivations of the formula of separate coefficient, the conditions of the selective optical excitation and the excited rate for isotope separation as an actual application.
作为实际应用,本文导出了分离同位素时分离系数的计算公式和用短脉冲的选择性激发同位素必须满足的条件以及激发速率的计算方法。
The article contains the derivations of the formula of separate coefficient, the conditions of the selective optical excitation and the excited rate for isotope separation as an actual application.
作为实际应用,本文导出了分离同位素时分离系数的计算公式和用短脉冲的选择性激发同位素必须满足的条件以及激发速率的计算方法。
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