Showing papers on "Planck force published in 1997"

The Smearing Out of the Thermal Initial Conditions Created in a Planck Era

Abstract: In this paper the quantum heat transport in a Planck gas in the presence of the potential (other than the thermal one) is investigated. The new quantum heat transport equation which generalizes our potential-free QHT is developed. The thermal wave solution of QHT for a Planck gas is obtained and a condition for distortionless propagation of thermal wave is formulated. It is argued that the initial conditions of the Beginning (i.e., at t=0) are smeared in the time scale of the Planck time.

The time arrow in a Planck gas

Abstract: In this paper the quantum heat transport equation (QHT) is applied to the study of thermal properties of Planck gas, i.e., a gas of massive particles with mass equal to the Planck massM P = (lc/G)1/2 and whose relaxation time equals the Planck timeτ p = (lG/c 5)1/2. The quantum of thermal energy for a Planck gas,E Planck = 1019GeV, and the quantum thermal diffusion coefficientD Planck = (ħG/c)1/2 are calculated. Within the framework of QHT the thermal phenomena in a Planck gas can be divided into two classes: for a time period shorter thanτ p , the time reversal symmetry holds and for a time period longer thanτ p , time symmetry is broken, i.e., a time arrow is created.

Estimate of Planck's Constant from an Electromagnetic Mach Principle

Abstract: An electromagnetic Mach principle is introduced, considering the zero-point radiation field as being produced by all visible matter in the universe, and at the same time being responsible for the quantum fluctuations of matter. An order-of-magnitude estimate allows thus to derive a relation between Planck's constant (as a measure of the strength of the field fluctuations) and cosmological constants, which is well satisfied by the accepted values of the intervening quantities.