Multi Photon Absorption in Gravity Induced Resonant Emission

TL;DR

This paper compares Gravity Induced Resonant Emission (gire) with Multi Photon Ionisation (mpi) in lasers, showing they are fundamentally similar processes with differences in electron damping and resonance conditions, relevant to coronal heating.

Contribution

It establishes the equivalence between gire and mpi, highlighting the role of electron damping and resonance in the process, and introduces a new perspective on coronal heating mechanisms.

Findings

gire and mpi are fundamentally similar processes

Resonance conditions in gire involve equal Larmour radii

Gire exhibits a wider frequency spectrum in resonance

Abstract

Gravity Induced Resonant Emission (gire) has been proposed as the mechanism of coronal heating; here we are comparing this with Multi photon Ionisation (mpi) in Laser. We find both are same, except electron damping as a pre-phase mechanism to initiate mpi in gire. A high intensity laser field used for mpi, but in gire, this happens at resonance condition when the Larmour radii of the particles are same. The temporal compression of photons is achieved by grating devise, but in gire, this is done by field deficit created due to the loss of electrons at resonance condition and this loss is compensated by photo electrons emitted during mpi. Fig.1 (a) \& (b) are plots of mpi in Laser and resonance condition of gire, shows absolute resemblance except the wider range of frequency spectrum in gire.