Current status about existance of DI-Photon in dark matter
Bisma Sohail, M. Phil Physics, 2015-2017 Supervised by Dr. Sarwat Zahra
Current status about existance of DI-Photon in dark matter / Bisma Sohail - Lahore : Division of Science & Technology, University of Education, 2018 - x, 82 p. CD
I discussed about dark matter its presence in the outer Milky Way. Dark matter detection in
milky way by CMS and ATLAS. Dark matter is incorporated mass of matter it is not bright and
non-absorbing, difficult to observe because its invisible to electro-magnetic radiation. In nature
dark matter is almost the total mass of the Universe, from the gravitational effects it can be
inferred. It has influence on universe at a large scale and it has effects on the cosmic microwave
back ground. I reviewed the experimental and theoretical presence of Di-photon in Dark matter.
A resonance with an invariable mass spectrum at 750 GeV is observed at the CMS. I studied the
Di-photon excess at CMS and ATLAS with local significance. At the end Conclusion has been
made on this experimental and theoretical result.
hbk
Physics--DI-Photon--Dark Matter
539 / C9362
Current status about existance of DI-Photon in dark matter / Bisma Sohail - Lahore : Division of Science & Technology, University of Education, 2018 - x, 82 p. CD
I discussed about dark matter its presence in the outer Milky Way. Dark matter detection in
milky way by CMS and ATLAS. Dark matter is incorporated mass of matter it is not bright and
non-absorbing, difficult to observe because its invisible to electro-magnetic radiation. In nature
dark matter is almost the total mass of the Universe, from the gravitational effects it can be
inferred. It has influence on universe at a large scale and it has effects on the cosmic microwave
back ground. I reviewed the experimental and theoretical presence of Di-photon in Dark matter.
A resonance with an invariable mass spectrum at 750 GeV is observed at the CMS. I studied the
Di-photon excess at CMS and ATLAS with local significance. At the end Conclusion has been
made on this experimental and theoretical result.
hbk
Physics--DI-Photon--Dark Matter
539 / C9362
