Showing papers on "Planck force published in 1985"
TL;DR: The significance of Planck length in a quantum gravity model is investigated by concentrating on the conformal degree of freedom as mentioned in this paper, which is a lower bound to physical proper length in any space-time.
127 citations
TL;DR: The effect of quantum fluctuations of gravity on the measurement of proper distances is considered in this paper, where it is shown that, when the length scales are of the order of Planck length, the concept of a unique distance between points ceases to exist.
Abstract: The effect of quantum fluctuations of gravity on the measurement of proper distances is considered. It is shown that, when the length scales are of the order of Planck length, the concept of a unique distance between points ceases to exist. It is also shown that the quantum expectation value of the proper length is bounded from below by Planck length in any space-time.
105 citations
TL;DR: In this article, the ethereal nature and origin of all the TWs of a particle is emphasized, and Planck's constant as fundamental factor of correlation and interconnection of TWs is presented and discussed.
9 citations
TL;DR: In this article, a discussion is given in terms of the correspondence principle, which, it is stressed, is active, rather than passive, in nature, and the use made of it by Bohr (1918) both in the construction of his atomic theory, and in his development of the corresponding correspondence principle itself.
Abstract: According to Planck's first theory (1900) the best expression for the average energy of an harmonic oscillator at high temperature is not kT but kT-1/2h nu . A second theory of Planck (1911) restores the expression kT, and also predicts zero-point energy. A discussion is given in terms of the correspondence principle, which, it is stressed, is active, rather than passive, in nature. Planck's second theory is then discussed in more detail, including the use made of it by Bohr (1918), both in the construction of his atomic theory, and in his development of the correspondence principle itself.
5 citations
01 Jan 1985
TL;DR: Theory and numerical results for ac conductivity under bias and under one or under two (harmonic mixing) strong ac excitations for the classical charge density wave model with current noise were given in this paper.
Abstract: Theory and numerical results are given for ac conductivity under bias and do conductivity under one or under two (“harmonic mixing”) strong ac excitations for the classical charge density wave model with current noise.