Stochastic Approach to Determining the Mass Standard Based on the Fixed Values of Fundamental Physical Constants

TL;DR

This paper proposes a stochastic method for defining the mass standard using fixed fundamental constants, specifically employing thermal noise as a reference process for a superconducting ampere balance.

Contribution

It introduces a novel approach linking random process properties to mass measurement via fundamental constants, with a focus on thermal noise as a reference.

Findings

Correlation interval to variance ratio relates to inert properties.

Thermal noise can serve as a Gaussian stationary process reference.

Theoretical basis for a superconducting ampere balance for mass measurement.

Abstract

It is shown that the inert properties of a stationary random process can be expressed in terms of the ratio of its correlation interval to the doubled variance. When using a fixed value of the Planck constant h as a proportionality factor, this ratio can be used as an equivalent of a mass standard. It is proposed to use thermal noise as a reference Gaussian stationary random process. The theoretical justification of the project of creating Thermal superconducting ampere balance for measuring the energy mass of an object is also given