When this star dies and explodes, if its explosive energy alone produces the GREAT gamma radiation from the ENERGY generated by our sun, even from the beginning of our sun to the end of the sun plus the energy of the explosion from our sun when our sun dies. but because of the great distance from this star to the earth, the gamma radiation explosion of this star will not affect anything to the earth. but if the distance of the earth is 7567 billion miles from the star WR104, then 2/3 ozone will be lost and life on earth will be commonplace.
But let's bless again the temperature. do you remember about the wavelength of radiation to that temperature? if an object has a temperature of 141,000,000,000,000,000,000,000,000,000 Kelvin (141,000 billion billion degrees Celsius) then the wave distance as small as 0.0000000000000000000000000161 NANOMETERS! very very very very small, even because very tight, the wave distance is named the planck length. which according to quantum mechanics, the planck length is the most smallest distance in the entire universe, and can not get any closer!
wow, okay .. but, what if we add more energy from one such object? the distance of the wave will be small plus is not it? but at temperatures greater than 141,000 billion billion Kelvin (also called planck temperature), theory no longer works, and it will be HOTER THAN TEMPERATURE !! very hot even the heat is no longer .. temperature ..
Basically there is no limitation how much energy we can continue to add, to the system of this universe. we just do not know what is the heat that exceeds the planck temperature. that enormous energy can create a black hole made of energy, which is the name of the black hole made of energy is "Kugelblitz"