Maintenance script: Imported from text file

2017-01-01T17:38:14Z

Imported from text file

← Older revision		Revision as of 13:38, 1 January 2017
Line 12:		Line 12:
	==Abstract==		==Abstract==

	Light possesses an independent existence while in transit from a source to its point of arrival. Waves and quantization are the consequence of many particles coherently forming rigid crystalline arrays. The mathematics of the Newton particle flux theory and of the wave in a medium theory for light are isomorphous. Both are valid for interacting particle ensembles only. The loss of interference below a critical intensity threshold proves the emission of photon bunches. Single photons are never involved nor observed in any experiment, the photoelectrical effect included. Single particles do not make waves. The Maxwell field theory, while yielding mathematical answers in agreement with some observations, cannot provide a physical basis for the existence of light.[[Category:Scientific Paper]]		Light possesses an independent existence while in transit from a source to its point of arrival. Waves and quantization are the consequence of many particles coherently forming rigid crystalline arrays. The mathematics of the Newton particle flux theory and of the wave in a medium theory for light are isomorphous. Both are valid for interacting particle ensembles only. The loss of interference below a critical intensity threshold proves the emission of photon bunches. Single photons are never involved nor observed in any experiment, the photoelectrical effect included. Single particles do not make waves. The Maxwell field theory, while yielding mathematical answers in agreement with some observations, cannot provide a physical basis for the existence of light.

			[[Category:Scientific Paper\|light waves many-particle phenomenon]]

Maintenance script: Imported from text file

2016-12-30T02:39:44Z

Imported from text file

New page

{{Infobox paper
| title = Light Waves as a Many-Particle Phenomenon
| author = [[Peter Marquardt]]
| keywords = [[photons]], [[light waves]]
| published = 2006
| journal = [[Proceedings of the NPA]]
| volume = [[3]]
| number = [[2]]
| pages = 172-173
}}

==Abstract==

Light possesses an independent existence while in transit from a source to its point of arrival. Waves and quantization are the consequence of many particles coherently forming rigid crystalline arrays. The mathematics of the Newton particle flux theory and of the wave in a medium theory for light are isomorphous. Both are valid for interacting particle ensembles only. The loss of interference below a critical intensity threshold proves the emission of photon bunches. Single photons are never involved nor observed in any experiment, the photoelectrical effect included. Single particles do not make waves. The Maxwell field theory, while yielding mathematical answers in agreement with some observations, cannot provide a physical basis for the existence of light.[[Category:Scientific Paper]]

Light Waves as a Many-Particle Phenomenon - Revision history

Maintenance script: Imported from text file

Maintenance script: Imported from text file