Gravitational brainwaves, quantum fluctuations and stochastic quantization

TL;DR

This paper explores the theoretical possibility of gravitational waves emitted by brain activity and employs stochastic quantization to analyze their probability and relate it to known quantum phenomena.

Contribution

It introduces a novel application of stochastic quantization to model gravitational wave emission from brain activity and connects it to quantum effects like the Lamb shift.

Findings

Calculated probability of brain-generated gravitational waves

Derived equilibrium state related to the Lamb shift

Proposed a new theoretical framework linking brain activity and gravitational phenomena

Abstract

It is known that the biological activity of the brain involves radiation of electric waves. These waves result from ionic currents and charges traveling among the brain's neurons. But it is obvious that these ions and charges are carried by their relevant masses which should give rise, according to the gravitational theory, to extremely weak gravitational waves. We use in the following the stochastic quantization (SQ) theory to calculate the probability to find a large ensemble of brains radiating similar gravitational waves. We also use this SQ theory to derive the equilibrium state related to the known Lamb shift.