Author(s)

Nagendra Nath Mondal

Department of Physics, Techno India Batanagar, B-7/360 New Ward, Putkhali, Maheshtala, Kolkata, India.

Different types of scatterings of photons with atoms, theoretical and experimental evidences of the light-light scattering in the visible range of electromagnetic waves are discussed. An inexpensive detection system of scattered light is developed in order to study this phenomenon without considering the scattering cross sections and photon structure function, and results infer that the universe is covered by the mesh of scattered photons. Asymmetry measurement of light-light scatterings shows that lower frequency photon scattered a lot than higher frequency photons. The homogeneity of mesh in absence of a direct incident light is better than that of presence although mesh intensity goes down and up respectively. The recent measurement of gravitational waves from black holes invokes this phenomenon that the primordial forms of the universe are the mesh of scattered light that intensity is extremely low in the absence of stars in a region where they sink is called a black hole.

Black Hole, Electromagnetic Wave, LED, Photodiode, Scattering, Spectroscopy

Mondal, N. (2016) Discovery of Light-Light Scattering (A Test of the Primordial Universe). International Journal of Astronomy and Astrophysics, 6, 384-392. doi: 10.4236/ijaa.2016.64031.