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The Galilean covariance, formulated in 5-dimensions space, describes the nonrelativistic physics in a way similar to a Lorentz covariant quantum field theory being considered for relativistic physics. Using a nonrelativistic… Click to show full abstract
The Galilean covariance, formulated in 5-dimensions space, describes the nonrelativistic physics in a way similar to a Lorentz covariant quantum field theory being considered for relativistic physics. Using a nonrelativistic approach the Stefan–Boltzmann law and the Casimir effect at finite temperature for a particle with spin zero and 1/2 are calculated. The thermo field dynamics is used to include the finite temperature effects.
Keywords:
finite temperature;
boltzmann law;
physics;
stefan boltzmann;
galilean covariance
Journal Title: International Journal of Modern Physics A
Year Published: 2017
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Journal Title: International Journal of Modern Physics A
Year Published: 2017
Link to full text (if available)
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recommendations!