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International Journal of Latest Research in Science and Technology

DOI:10.29111/ijlrst   ISRA Impact Factor:3.35

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MICRON-SIZED PHOTONS OF THE SUN

Research Paper Open Access

International Journal of Latest Research in Science and Technology Vol.3 Issue 3, pp 122-126,Year 2014

MICRON-SIZED PHOTONS OF THE SUN

Byungwhan Kim

Correspondence should be addressed to :

Received : 25 June 2014; Accepted : 28 June 2014 ; Published : 30 June 2014

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Article No. 10327
Abstract

Contradictory to the current theoretical model, the images of photons collected from the Sun once revealed that they have visible shapes and measurable mass. In this work, distributions of micron-sized photons in energy, number and dimension are reported. The shapes of energy distributions of photons identical to the typical ones of hot electrons indicate that a photon possesses hot electron energy. In other words, a photon is equivalent to a hot electron. This is further strengthened by the solid photons united together. Moreover, the individual solid photons were surrounded by the gel type photons. Therefore, it is once again confirmed that a photon of light is composed of solid and gel types of photons. To avoid confusion, the theoretical photon was replaced by the sold matter and gel matter composed of hot electrons. In fact, light photons are matter itself directly collectable from the Sun or laser light. It was observed that a large light matter leaves multiple tiny matter as it goes through a medium. Multiple light matter coupled together contradict to the principle of the quantum mechanics basing on separate light matter. Images of long sward- or cross-shaped constructions made up of light matter are presented as well as light matter leaving a photon gel once defined as the gel binding multiple photons.

Key Words   
The Sun, Photon, Gel, Energy; Dynamics, Image, Quantum Mechanics, Matter

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References
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To cite this article

Byungwhan Kim , " Micron-sized Photons Of The Sun ", International Journal of Latest Research in Science and Technology . Vol. 3, Issue 3, pp 122-126 , 2014

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