The ‘Information Paradox’ has risen since Hawking wrote about the black hole radiation. Several attempts have been made to solve the resulting combination of quantum mechanics and general relativity known as ‘Paradox’. The problem is after complete evaporation of black hole where did all quantum information go and how we resolve it. I gave an opinion to resolve the paradox, which decides the outcome of all deadly energized particles outside the horizon at a time. My paper suggests, whenever one of the particle-antiparticle pair falls into the event horizon of Kerr-Newman black hole before annihilation, they store their information in a co-reality of 2-dimensional surface. Number of soft particles that are leaked outside as radiation isn't enough, due to the presence of huge barrier & horizon itself moves outward at the speed of light. But huge entropy is present inside it. The exact time during explosion is the most crucial, which reveals ‘paradox’. All outgoing parti
The world's largest and most s ensitive cosmic ray monitor, GRAPES-3 Muon telescope located at Tata Institute of Fundamental Research's Cosmic Ray Laborotory in Ooty in Tamil Nadu recorded a burst of galactic cosmic rays of about 20 GeV (Gigaelectron volt, 1GeV= 10^9 eV) on 22 June 2015 which lasts for two hours. The burst occurred when a giant cloud of plasma ejected from the solar corona and moved with a speed of about 2.5 million kilometres per hour struck earth, caused a severe compression of earth's magnetosphere from 11 to 4 times the radius of earth, causing a severe geomagneting storm that generated Aurora Borealis and radio signal blackouts in many high latitudes countries like Norway, Greenland, Northern Canada, Siberia, Arctic Ocean. Earth's magnetosphere extends over a radius of million kilometres, which acts as the first line of defence against harmful solar and galactic cosmic rays -protecting life on earth from these high intensity energetic radiations.