alpha2cen Posted February 9, 2011 Posted February 9, 2011 In the room temperature thermal energy exits as vibration or long length electromagnetic(EM) waves or molecular kinetic energy, etc.. At the high temperature I suppose EM wave energy ratio may be high. Then the highest temperature thermal energy is like this. High UV -----> X ray--------> Gamma ray---->? And the remained energy is stored as quark-gluon plasma state. How shortest wave length EM wave is possible in the real physical world? And the next step? Is the highest cosmic-ray EM wave? For example 1x1020eV.
lemur Posted February 9, 2011 Posted February 9, 2011 Can't electrons vibrate at ever higher relativistic speeds given ever-increasing energy? I would assume that they would thus emit ever-shorter wavelengths of radiation, but maybe there is some limit such as the plank unit of smallest energy-unit?
alpha2cen Posted February 13, 2011 Author Posted February 13, 2011 At the beginning of the Universe, why the high temperature inflation did not make many black hole? The very high temperature behavior , I think, is not same as low high temperature.
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