If you want to know how to propel a starship, all you have to do is go to axriv.org and use the following code to get them to accept my work. All these places are behind firewalls to keep out people who lack 'credentials'
---- requests your endorsement to submit an article to the
astro-ph.HE section of arXiv. To tell us that you would (or would not)
like to endorse this person, please visit the following URL:
https://arxiv.org/auth/endorse?x=73ZA4R
If that URL does not work for you, please visit
http://arxiv.org/auth/endorse.php
and enter the following six-digit alphanumeric string:
Endorsement Code: 73ZA4R
The name of my paper is 'A Plausible Mechanism for the Velocity of Hyperfast Pulsars
With Application for Interstellar Propulsion'
The abstract reads as follows:
Hyper-fast pulsars are a class of neutron star with extreme velocity relative to the stellar background that eludes existing theories of neutron star synthesis in supernovae. Of relevance to their understanding is the emergence of Information as a fundamental principle in Physics and Astrophysics. This suggests a review of Einstein’s lifetime insistence that Quantum Mechanics is an incomplete description of physical reality due to his Realist ontology of ‘hidden variables’. An examination of the Holevo Bound of Information transmission through the Quantum vacuum, Information Theory, and General Relativity reveals a plausible scenario where Magnetodynamics of neutron star coalescence may define a directional Information Field that approaches the Holevo Bound. A physical interpretation of Information Theory and Einstein’s Realist ontology of Hidden Variables requires that Information density approaching the Holevo Bound must result in spatial dilation in a static inertial frame. Spatial dilation manifests as an acceleration, and this is hypothesized as the physical mechanism imparting the extreme velocity of hyperfast pulsars. A physical experiment is described that may yield controlled spatial dilation and a detectable acceleration upon a bench-top supermagnet apparatus. Astrophysical supercomputer simulations of supernovae are in a mature state of development. These may be refactored to use a Lorentz factor based upon the Holevo Bound that may reveal hyperfast ejection of a neutron star in a simulation. In such an event, magnetodynamic principles may be isolated and physically duplicated on a specialized supermagnet at much reduced energy and scale. A physical acceleration upon the apparatus, if detected, will support Einstein’s prescient conjecture regarding Information in the universe, and the incompleteness of Quantum Mechanics. Upon refinement, such a device may also serve as an acceleration pod.
It is time to cut the bullshit. These places are all firewalled and people like me are locked out of the exchange of ideas. You can open the door, or you are a poser and you can shut the fuck up.
Obviously, you need a starship before you need to worry about navigating one.
The Physics of starship propulsion (and the math) is described in my paper. In a nutshell, Einstein was right, and Bohr was wrong.
That done, I have moved on to the Navigation problem.
And I stand by Polynesian Navigation as the only plausible methodology that could form the foundation for an operational discipline of Interstellar Navigation.
I am very frustrated by gatekeepers who see their jobs as keeping new ideas out of discussions.
If that frustration shows, that is how it is.
I would be very and sincerely grateful if you would kindly open the door to axriv.org to my work.
Please do not tell me you have 'better things to do'. That fools no one at this point.
---- requests your endorsement to submit an article to the
astro-ph.HE section of arXiv. To tell us that you would (or would not)
like to endorse this person, please visit the following URL:
https://arxiv.org/auth/endorse?x=73ZA4R
If that URL does not work for you, please visit
http://arxiv.org/auth/endorse.php
and enter the following six-digit alphanumeric string:
Endorsement Code: 73ZA4R
The name of my paper is 'A Plausible Mechanism for the Velocity of Hyperfast Pulsars
With Application for Interstellar Propulsion'
The abstract reads as follows:
Hyper-fast pulsars are a class of neutron star with extreme velocity relative to the stellar background that eludes existing theories of neutron star synthesis in supernovae. Of relevance to their understanding is the emergence of Information as a fundamental principle in Physics and Astrophysics. This suggests a review of Einstein’s lifetime insistence that Quantum Mechanics is an incomplete description of physical reality due to his Realist ontology of ‘hidden variables’. An examination of the Holevo Bound of Information transmission through the Quantum vacuum, Information Theory, and General Relativity reveals a plausible scenario where Magnetodynamics of neutron star coalescence may define a directional Information Field that approaches the Holevo Bound. A physical interpretation of Information Theory and Einstein’s Realist ontology of Hidden Variables requires that Information density approaching the Holevo Bound must result in spatial dilation in a static inertial frame. Spatial dilation manifests as an acceleration, and this is hypothesized as the physical mechanism imparting the extreme velocity of hyperfast pulsars. A physical experiment is described that may yield controlled spatial dilation and a detectable acceleration upon a bench-top supermagnet apparatus. Astrophysical supercomputer simulations of supernovae are in a mature state of development. These may be refactored to use a Lorentz factor based upon the Holevo Bound that may reveal hyperfast ejection of a neutron star in a simulation. In such an event, magnetodynamic principles may be isolated and physically duplicated on a specialized supermagnet at much reduced energy and scale. A physical acceleration upon the apparatus, if detected, will support Einstein’s prescient conjecture regarding Information in the universe, and the incompleteness of Quantum Mechanics. Upon refinement, such a device may also serve as an acceleration pod.
It is time to cut the bullshit. These places are all firewalled and people like me are locked out of the exchange of ideas. You can open the door, or you are a poser and you can shut the fuck up.
Obviously, you need a starship before you need to worry about navigating one.
The Physics of starship propulsion (and the math) is described in my paper. In a nutshell, Einstein was right, and Bohr was wrong.
That done, I have moved on to the Navigation problem.
And I stand by Polynesian Navigation as the only plausible methodology that could form the foundation for an operational discipline of Interstellar Navigation.
I am very frustrated by gatekeepers who see their jobs as keeping new ideas out of discussions.
If that frustration shows, that is how it is.
I would be very and sincerely grateful if you would kindly open the door to axriv.org to my work.
Please do not tell me you have 'better things to do'. That fools no one at this point.