光电效应实验中影响电流的因素之分析

doi:10.14139/i.cnki.cn22-1228.2024.06.014

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摘要

根据光的量子理论,发生光电效应的必要条件是入射光的频率大于阈值频率。当此条件满足时,逸出电子的通量取决于入射光子的通量。当入射光的频率大于阈值频率,且入射光子的通量一定时,逸出电子的通量就是一定的。然而,并非所有这些电子都能到达阳极形成电流。本文首先分析了在逸出电子通量一定的条件下影响电流的物理因素,结果表明,影响电流的主要因素是外加正向电压Ｕ和电子的逸出角 θ ０ (逸出电子的初速度与光电管轴向之间的夹角)。然后利用作图模拟的方法,具体考查了Ｕ和 θ ０对电流的影响,结论表明:对一定 θ ０的电子,只有当Ｕ大于某个临界值时才能到达阳极对电流作出贡献;而对一定的Ｕ,只有 θ ０小于某个临界值的电子才能到达阳极对电流作出贡献。

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	张智明
	何　珊
	刘军浩

关键词: 光电效应电流正向电压逸出角

Abstract:

According to the quantum theory of light ,the necessary condition for the photoelectric effect is that the frequency of the incident light is greater than the threshold frequency. When this condition is satisfied ,the flux of the escaped electrons depends on the flux of the incident photon. When the frequency of the incident light is greater than the threshold frequency , and the flux of the incident photon is delinitc, the flux of the escaped electrons is also definite, However, not all of these escaped electrons reach the anode to form a current In this paper , the physical factors affecting the current under a certain escaped electrons flux are analyzed. The results show that the main factors affecting the current are the applied forward voltage and the electron escapeangle ( the angle between the initial veloeity of the escaped electron and the axial direction of the phototube)'Then by using the graphing method , we examined the influences of 0, and in detail, and the conclusions show that ,for an electron with a certain 6,, it can reach the anode and contribute to the current only when l isgreater than a certain critical value. While for a certain U, only those electrons with 0, less than a certaineritical value can reach the anode and contribute to the current.

Key words: photoelectric effect current forward voltage escape angle

出版日期: 2024-12-25 发布日期: 2024-12-25 整期出版日期: 2024-12-25

ZTFLH:

O 431.2

引用本文:

张智明 , 何　珊 , 刘军浩 . 光电效应实验中影响电流的因素之分析 [J]. 大学物理实验, 2024, 37(6): 74-77.
ZHANG Zhiming , HE Shan , LlU Junhao. Analysis of Factors Affecting Current in Photoelectrie Effect Experiments . Physical Experiment of College, 2024, 37(6): 74-77.

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https://dawushiyan.jlict.edu.cn/CN/10.14139/i.cnki.cn22-1228.2024.06.014 或 https://dawushiyan.jlict.edu.cn/CN/Y2024/V37/I6/74

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