Scientific study of Mars has revealed the existence of the isotope xenon 129 present within the almost non-existent Martian atmosphere. This has puzzled scientists as there are a limited number of understood methods to achieve such an outcome. The first method is via cosmic radiation, specifically galactic cosmic rays and/or solar cosmic rays striking elements like barium or bromine upon the Martian surface which can cause neutron capture, leading to the formation of xenon 129 naturally. This is because Mars has a very thin atmosphere and lacks a global magnetic field, which means it is less protected from cosmic radiation in comparison to the Earth. The second method is to detonate nuclear weaponry upon Mars which has left scientists dumbfounded as to how such an event could occur without third party intervention. Because of this, the majority of scientists believe the former method to be the causation, however there are scientists who take issue with this theory, mainly due to the high ratios of xenon 129, xenon 132, and krypton 80 within the Martian atmosphere which can be a byproduct of the fast neutron fission of uranium and plutonium weaponry, with all 3 of these isotopes able to be created by generating nuclear energy as well, the topography of Mars itself as vast glass like smooth regions exist which strikingly resemble the Trinity nuclear weaponry test detonation site in New Mexico, United States of America, as well as the high concentration of specific isotopes within specific regions (e.g. high levels of krypton 80 in the Cydonia region of Mars etc.)