经典的光学理论都将光的波动性和粒子性区别来看。在利用光量子学说来解释光与物质作用时,也只强调光的粒子性,并且没有明确给出光与物质作用的力学机制,故而在光的波粒二象性的统一性方面存在着不足。本文提出了光子波驱动力模型假设,利用原子核-电子简谐振子力学模型对光与物质的作用机制进行了分析和修正,以三种半导体材料为例,较为合理地解释了物质对光的吸收,在一定程度上完善了对辐射光本质的描述。
The wave nature and particle nature of light are separated in classical optical theory. When the interaction between light and matter is explained by the quantum theory, only the particle nature of light is considered and the mechanical mechanism of the interaction between light and matter is not explicitly given. Therefore, the wave nature and particle nature of light are not unified well. In this study, the photon wave driving force model is proposed, and the interaction mechanism between light and matter is analyzed and corrected by using nucleus-electron oscillator model. The model is applied to three semiconductors, the theoretical results of can reasonably explain the absorption of light. The proposed theory can improve and perfect the description of the essence of light.
参考文献
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%