Quantization of light energy directly from classical electromagnetic theory in vacuum 被引量：2

Quantization of light energy directly from classical electromagnetic theory in vacuum

下载PDF

导出

摘要 It is currently believed that light quantum or the quantization of light energy is beyond classical physics, and the picture of wave-particle duality, which was criticized by Einstein but has attracted a number of experimental researches, is necessary for the description of light. It is shown in this paper, however, that the quantization of light energy in vacuum, which is the same as that in quantum electrodynamics, can be derived directly from the classical electromagnetic theory through the consideration of statistics based on classical physics. Therefore, the quantization of energy is an intrinsic property of light as a classical electromagnetic wave and has no need of being related to particles. It is currently believed that light quantum or the quantization of light energy is beyond classical physics, and the picture of wave-particle duality, which was criticized by Einstein but has attracted a number of experimental researches, is necessary for the description of light. It is shown in this paper, however, that the quantization of light energy in vacuum, which is the same as that in quantum electrodynamics, can be derived directly from the classical electromagnetic theory through the consideration of statistics based on classical physics. Therefore, the quantization of energy is an intrinsic property of light as a classical electromagnetic wave and has no need of being related to particles.

作者佘卫龙

机构地区 Institute for Lasers & Spectroscopy

出处《Chinese Physics B》 SCIE EI CAS CSCD 2005年第12期2514-2521,共8页 中国物理B（英文版）

关键词 the nature of light quantization of light energy classical electromagnetic theory consideration of statistics the nature of light, quantization of light energy, classical electromagnetic theory, consideration of statistics

分类号 O431.2 [机械工程—光学工程]

引文网络
相关文献

参考文献21

1Einstein A 1905 Ann. D. Phys. 17 132.
2Wheaton B R 1983 The tiger and the shark (New York:Cambridge University Press) pp298-299.
3Einstein A 1951 Science 113 82.
4Speziali P 1972 Albert Einstein-Michele Besso Correspondence 1903-1955 (Paris: Hermann) pp17-18.
5Speziali P 1972 Albert Einstein-Michele Besso Correspondence 1903-1955 (Paris: Hermann) p453.
6Zajonc A 2003 Opt. & Photon. News Trends 3 (1) S-2.
7Mack H and Schleich W P 2003 Opt. Photon. News Trends (1) S-28.
8Grangier P, Roger G and Aspect A 1986 Europhys. Lett.1 173.
9Hellmuth T, Walther H, Zajonc A and Schleich W 1987 Phys. Rev. A 35 2532.
10Lai M and Diels J 1992 J. Opt. Soc. Am. B 9 2290.

同被引文献13

1甘永超,章介伦,沈文达,吴美钧.辐射场的内禀结构研究──电磁场的按光子对应分解及其物理实质[J].光子学报,1995,24(5):472-475. 被引量：2
2马仰华,张鹏,赵建林,彭涛.(1+1)维光折变亮屏蔽孤子相互作用的数值分析[J].光子学报,2006,35(2):252-256. 被引量：10
3甘永超,胡战,周刚.Lorentz-Compton佯谬与一个双赢判决性散射实验设计[J].光散射学报,2006,18(1):75-79. 被引量：1
4李金萍,卢克清,赵卫,朱香平,杨延龙,过晓辉,宋建平,张彦鹏.暗光伏孤子的实验研究[J].光子学报,2006,35(8):1225-1228. 被引量：7
5卢克清,张美志,越卫,张彦鹏,宋建平.Waveguides Induced by Screening-Photovoltaic Solitons in Biased Photorefractive-Photovoltaic Crystals[J].Chinese Physics Letters,2006,23(10):2770-2773. 被引量：4
6瑞德尼克.黄宏荃,彭灏译.量子力学史话[M].北京:科学出版社,1979:281-282.
7Y. Gan, W.Wang.A self-consistent picture of wave-particle duality of light[C]. Proc.of SPIE, 2007, 6664:666407.
8Marshall T W. Brownian motion of a mirror[Jl.Phys. Ikev. D, 1981, 24 (6) : 1509-1515.
9She Wei-Long. Light quantum from classical electromagnetic theory[C].Proc, of SPIE, 2007, 6664: 66640A.
10Gan Y. Can the quantum theory of light contain the classical electromagnetic theory of light?[j].Proc, of SPIE, 2009, 7421:74210U.

引证文献2

1陈丹,张美志,杨延龙,卢克清.闭路光伏灰孤子诱导的波导(英文)[J].光子学报,2009,38(12):3145-3149.
2甘永超.“第三种波粒二象性”的揭示及其“波粒二象关系式”与“巨光子炮”[J].中国新技术新产品,2014(14):6-8.

1李应乐,黄际英.The scale-transformation of electromagnetic theory and its applications[J].Chinese Physics B,2005,14(4):646-655. 被引量：13
2赵诗华,李英骏.Comment on 'The scale-transformation of electromagnetic theory and its applications','Distribution characteristic of scattering field for an ellipsoidal target irradiated by an electromagnetic wave from an arbitrary direction' and 'Electric fields inside a[J].Chinese Physics B,2011,20(3):37-38.
3赵诗华,李英骏.Comment on ＇The scale-transformation of electromagnetic theory and its applications＇, ＇Distribution characteristic of scattering field for an ellipsoidal target irradiated by an electromagnetic wave from an arbitrary direction＇ and ＇Electric fields inside and outside an anisotropic dielectric sphere＇[J].Chinese Physics B,2011,20(3):33-34.
4祁兰英,郑志坚,梅启庸,李三伟,赵雪薇,谢平,李文洪,杨向东,唐道源,丁耀南.Experimental　studies　of　nonlinear　laser－plasma　interactions　and　hot　electrons[J].Nuclear Science and Techniques,1996,7(2):69-72.
5张世昌.HIGHER ORDER PERTURBATION SOLUTION OF VLASOV EQUATION IN ECRM[J].Chinese Science Bulletin,1986,31(9):602-605.
6李建龙.Polarization singularities in near-field of Gaussian vortex beam diffracted by a circular aperture[J].Chinese Physics B,2010,19(12):228-233. 被引量：1
7Albert G. Nasibulin,Adinath M. Funde,Ilya V. Anoshkin,Igor A. Levitskyt.All-carbon nanotube diode and solar cell statistically formed from macroscopic network[J].Nano Research,2015,8(9):2800-2809. 被引量：1
8S. PRASAD,Vivek SINGH,A. K. SINGH.Properties of Ternary One Dimensional Plasma Photomic Crystals for an Obliquely Incident Electromagnetic Wave Considering the Effect of Collisions in Plasma Layers[J].Plasma Science and Technology,2012,14(12):1084-1090. 被引量：2
9戚明,薛志元,李全芝.Study of formation of supercluster (CdS)_4 in zeolite hosts by in situ IR spectra[J].Chinese Science Bulletin,1995,40(11):916-920.
10陈岐岱,付立民,艾希成,张建平,王龙.Spectroscopic characteristic of conical bubble luminescence[J].Chinese Physics B,2005,14(4):826-829.

Chinese Physics B

2005年第12期

浏览历史

内容加载中请稍等...

Quantization of light energy directly from classical electromagnetic theory in vacuum 被引量：2

参考文献21

同被引文献13

引证文献2

相关作者

相关机构

相关主题

浏览历史