Normally, over 90 % of the total energy of a Type II supernova explosion is carried away by neutrinos.
The remaining energy is then distributed to the kinetic energy of the remnants, visible light, and radiation across various wavelengths.
But even this small fraction of energy is still enough to provide light that outshines an entire Milky Way, and violent radiation that sweeps through several light-years of surrounding space, destroying everything, tangible or intangible.
According to the normal supernova explosion model, Tom, combining it with the performance of his neutrino telescope, estimated that the number of neutrinos he should have captured would be over 1000 times the number currently captured.
However, the neutrinos observed now are only one-thousandth of that amount.
This is already a difference in magnitude, and it can no longer be explained by probability.
From this, Tom discovered a total of three anomalies.
First, repeated occurrences at the same coordinates.
