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- Title
Detailing Minimum Parameters for the Red Shift, Frequency, Strain, and Wavelength of Gravitational Waves / Gravitons, and Impact Upon GW astronomy for Experimentally Falsifiable Measurements to Evaluate Current models of Cosmology.
- Authors
Beckwith, Andrew Walcott
- Abstract
This document briefly outlines some of the issues pertinent to early inflation and how they affect strain readings for a GW detector, GW wavelengths, and the number of gravitons which may be collected per phase space, among other issues. Different inflation models will also be briefly explored to. explain in part rates of wavelength alterations of GW's from their pre-inflation genesis to inflationary generation. We also describe a standard for GW measurement and how the 'metric' of measurement varies between the different cosmological models, thereby allowing them to be distinguished experimentally. The best chances for relic GW measurements are within the 01Hz < f <10 GHz range according to the pre big bang models and the QIM model. Conventional red shift calculations indicate that past the big bang massive red shifting continues and would eliminate HFGW as presently measurable from the big bang. If there are still in the present day HFGW detectable from the big bang, then we have either an absence of extreme post big bang red shifting, inflation as configured is not quite what we think in the initial inflationary era, or there are even higher frequency GW generated in the onset of creation.
- Publication
Apeiron: Studies in Infinite Nature, 2011, Vol 18, Issue 4, p321
- ISSN
0843-6061
- Publication type
Academic Journal