The fogged internal latent image grains are protected by mercapto development antifoggants . 内潜影颗粒可以通过带巯基的显影防灰雾剂加以保护。
2.
The purpose of developing is the intensification of the latent to such a degree that it becomes visible . 显影的目的是强化潜影,使它显现出来。
3.
Cinematography - manufacturer - printed , latent image identification on 16 mm , 35 mm 65 mm film - specifications and dimensions 电影摄影.在16mm 35mm和65mm电影胶片上厂家印制的潜影标记.规范和尺寸
4.
Cinematography - manufacturer - printed , latent image identification on 16mm , 35mm and 65mm motion - picture film - specifications and dimensions 电影摄影术在16mm 35mm和65mm电影胶片上由制造厂印制的潜影标识规范和尺寸
5.
The theory of forming surface latent - image is summarized . theoverall technologies and methods of surface latent - image centralization as well as their application fields and effect are also described 概述了表面潜影理论,较全面地介绍了表面潜影集中所采用的技术及其应用领域、实施方法和作用。
6.
The photo - action dielectric detecting apparatus for the silver halide materials is designed and set up in this paper on the basis of microwave absorption technique ( mwa ) from the point of view of the photo - action kinetics 利用微波吸收技术对卤化银感光材料的光电子特性和微观感光机理进行研究,能够获得光电子运动行为的规律及其对潜影形成过程的影响,对提高材料的感光性能就有重要的指导意义。
7.
On the basis of optoelectronic dynamics and nucleation and growth model , we simulated photosensitive process by the following steps : the creation of optoelectrons , carriers " transmission and decay , until the formation of latent image . in our simulation code , monte carlo method was adopted in order to simplify the algorithm 本工作以光电子动力学理论为依据,利用成核生长( nucleation & growth )理论模型,并在此基础上采用montecarlo方法,模拟了光电子的产生、迁移、衰减、直到形成潜影中心为止的感光过程。
8.
Through the input parameters modification , we got the micro process image of latent image formation , which indicate the variation of the number of different particles with time and the transformation relationships between them ; also , we got the dependence of photosensitive process on these parameters . on this condition , all kinds of reactions occurred during the process of a certain carrier are very clear from the analysis of the results 通过对模拟程序中输入参数的调整,我们得到了不同势阱密度下潜影形成过程的微观图像,揭示了各种粒子数量随时间的变化关系以及它们之间的相互转化关系,同时还得到了每一种粒子在感光过程中的反应过程以及它们对整个感光过程的影响。
