Abstract
We look at the Vuilli (1999) write up of a generalized Schrodinger equation with its Ricci scalar inclusion, in curved space-time. This has a simplified version in Pre-Planckian regime, which leads to comparing a resultant admissible wave function with Bohmian reformulations of quantum physics. As was done earlier, we compare this result with a formulation of a modified “Poisson” equation from Poissons and Will from 2014, and then use inflaton physics. The resulting inflaton is then compared to the wave functional in the first part of this document.
Highlights
We look at the Vuilli (1999) write up of a generalized Schrodinger equation with its Ricci scalar inclusion, in curved space-time
This has a simplified version in Pre-Planckian regime, which leads to comparing a resultant admissible wave function with Bohmian reformulations of quantum physics
We compare this result with a formulation of a modified “Poisson” equation from Poissons and Will from 2014, and use inflaton physics
Summary
We look at the Vuilli (1999) write up of a generalized Schrodinger equation with its Ricci scalar inclusion, in curved space-time. 2. Simplifying Equation (3) in Pre-Planckian Space-Time We will re write Equation (3) to read as follows, with the result that in Pre-Planckian space-time
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More From: Journal of High Energy Physics, Gravitation and Cosmology
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