Decay of Motion : The Anti-Physics of Space-Time Hardback
by Bernd Schmeikal
Hardback
Description
This book investigates a discrete theory beyond space and time of QCD-entanglement that creates space-time.
Quantum entanglement is known as the most striking property of electrodynamics.
It provides both a foundation for quantum information technology and a challenge for theoretical physics.
Unfortunately, the equations of motion for entangled systems, quantum jumps and similar phenomena are always conceived as models in space-time.
Regardless, whether we consider a quantified local oscillator, a heterodyne detection model, a Bell inequality, a CHSH-inequality, an objective pure state system, or a non-linear steering inequality, it is always formulated in space-time, using the x, x and so on.
This is a doubtable method, since proceeding in this way, we are constructing space-time models of those events that bring about this very space-time, the frames', wherein they are supposed to move.
Those who carry out calculations in EPR quantum-steering experiments are acquainted with the Kochen-Specker theorem.
But they are still deriving the estimates for expectation values of densities and inequalities from the implicit assumption of states in Hilbert-space.
Though some of us have co-operatively managed to close all the major loopholes, the locality loophole, the freedom-of-choice loophole and the detection loophole, none of us has as yet realised that a closure of the locality-loophole in strong qcd-interaction is entirely impossible.
A space-like separation of hadronic events cannot be achieved.
The reason for our weak models is in the lack of a suitable exact theory of interaction.
Such a theory is complete and phenomenologically consistent to some extent.
Theoretically, both the iterant algebra of polarised entangled strings as well as the derived geometric algebra of the known space-time is incompatible with complete space-like separation.
The loophole opening up on this basis is as large and as old as that universe we pretend to know.
Information
-
Out of stock
- Format:Hardback
- Pages:296 pages
- Publisher:Nova Science Publishers Inc
- Publication Date:01/06/2014
- Category:
- ISBN:9781631178092
Information
-
Out of stock
- Format:Hardback
- Pages:296 pages
- Publisher:Nova Science Publishers Inc
- Publication Date:01/06/2014
- Category:
- ISBN:9781631178092