A Planck particle is a hypothetical particle defined by Max Planck as a tiny black hole of mass approximately the Planck mass and whose Crompton wavelength is equal to the Schwarzchild radius and are about the Planck length. As compared to a proton, the Planck particle would have a radius of about Planck length which is about 10⁻²⁰ times the proton's radius and its mass is about the Planck mass that being 10¹⁹ times more massive than the proton's mass. The Planck particle would have a very fleeting existence, evaporating due to Hawking's Radiation after approximately 5×10⁻³⁹ seconds.
Crompton wavelength is a quantum mechanical property of a particle in which Crompton wavelength is equal to the wavelength of the photon scattered by particle when the energy of the photon is equal to the mass of the particle.
Schwarzchild radius or gravitational radius which is a physical parameter corresponding to the radius defining the event horizon of a black hole.
Hawking's radiation is a black body radiation that is predicted to be released by the black hole, due to quantum effect near the event horizon. Hawking radiation reduces the mass and the rotational energy of black holes and it therefore also known as black hole evaporation.
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