Dr Wang Li Chu1, Dr Esme Jesson-Smith2 and Prof Hugh Zeitenschaft2
1University of Sydney, Sydney Institute for Astronomy – Faculty of Science, Sydney, Australia
2Macquarie University, Department of Physics & Astronomy, North Ryde, Australia
ABSTRACT
A novel approach is outlined for generating new Universes with Bayesian Probability whilst Minimising Antipodal Point Libration about the Quasi-Siderial Axis.
KEYWORDS
Jonson Moshly catalytic, Riemann’s zeta function, Zermelo-Fraenkel asymptotes, Hamiltonian quaternions, baryonic universes
INTRODUCTION
It is desirable that we create new Universes in order to better understand the history of our own and to explore different values of the basic physical constants and their effect on the developmental stages and the associated likelihood and properties of any emergent lifeforms.
We outline a novel approach through the generation of primal gravitational cavitation resonance utilising the Legendre Transformation within the Homeokinetic Eigenvalues of the Bessel framework.
The experimenter is cautioned that the inadvertent introduction of spurious dialetic sonation is an ever-present threat that may not only disrupt the creation of the new Universe but may also subvert the physical framework of our own, resulting in a rapid (of the order 10-19 seconds) collapse to an Omega point of singularity, with obvious adverse consequences for all lifeforms.
METHODS
We begin with the Helpman-Zeitenschaft fusion method for baryons, noting that the quadruntal error of the curl of the magnetic moment of the standard Jonson Moshly quantum catalytic can be substantially reduced by the application of a balancing coil, where the rapid collapse of Gaussian field strength is facilitated with the addition of a surrounding mesh of silvered galidium, using the traditional midpoint frequency of 357.475 GHz in order to optimise transmissibility through the neighbouring medium which is notoriously opaque to subluction of this kind.
It would be hasty, however, to conclude that the randomness of the remaining dialetic sonation is deleterious to the Branfield effect. In point of fact, as shown in 2019 by one of us (Li Chu) using the mass spectrum superfluid pressurisation arm of the stellar scintillation apparatus at the Brathoi Zeiting quantum cavitation laboratory, the aforementioned effect can be stimulated into a non-local resonance with the spin of the mono-dilecting transients that reside in the ablation cloud resulting from the normalised moment of spontaneous isotropic emission. Once this resonance is achieved, the hyperbolic solutions to the Sitter equation normalised to the Planck constant are a good predictor of the non-Euclidian attractor forces that dominate the interstitial focal point of intersection with the zootropic Bohr outliers resulting from the preparatory spectrum emissions.
The physical effusion proceeds with gratifying speed once the inflection point of the diatomous collapse is reached. At this point, it is imperative that all sources of rheostatic en-planing are rendered completely dormant, down to a level of 12 mV/parsec or less, or it’s likely that the incoming Ziegler waves will be unable to penetrate the unmasked viostatics induced by the pull-through differential of chiral pairs briefly dominating the exothermics of the allogenic molecular bonding process.
Furthermore, all fringing non-eigenvalue transference should be nullified through the application of Liouville’s theorem to maximise the available quantum phase space volume, within the constraints of the Heisenberg Uncertainty Principle. If this is not done, the Carnot Cycle magneto bijection fields surrounding the apparatus may well fall below the local minimums required by Riemann’s zeta function. The alternate pathway of generating a subluminal mass of Bose-Einstain condensate (BEC) is not available, due to the transfinite muon decays predicated upon the collapse of the Zermelo-Fraenkel asymptotic intersections of Fermi spacetime loops. Nor can the experimenter rely upon Hamilton’s quaternions to counter the Jansky spectral flux density, since Laue-Bragg interference in the phase space, according to Liouville, renders the thermodynamic completion of baryonic matter unlikely in the extreme.
The preferred tangent for achieving quantum Higgs boson chondrule generation with an appropriate declination is chosen. The Planck-Bohr ephemeris tables for fermion quantum dispersion are consulted, utilising the exact values of transference recorded during the effusion collapse of the emergent BEC-like condensate and Hawking radiation. In order to create the final framework for the curtailing of the implosion using bremsstrahlung radiation, Kirchhoff’s equations are used for the Bohr eigenvalues and the residuals of quantum interference are allowed to finally resolve into the explosive beginnings of the new Universe.
RESULTS
A new Universe is created, contingent upon the canonical solution of Sitter’s allusion of Riemann’s zeta function. The valence band of quantum error is reduced through minimising the transfinite confluence of the Mersenne primes during the Higgs association phase of baryonic matter and through appropriately energising the fermion constructs without disrupting the Laue-Bragg interference, so as to follow the hyperbolic path predicted by the partial differential equations of Navier–Stokes as modified by Einstein.
DISCUSSION
New quantum holographic mapping techniques are being developed so that we may soon be able to ascertain the exact course of development of the new Universes – and to project the likelihood of intelligent life emerging.
CONCLUSION
We are now in a position to create new Universes in order to better understand the history of our own and to explore different values of the basic physical constants and their effect on the lifecycle and the associated likelihood and properties of any emergent lifeforms.
We suggest an appropriate regulatory framework is put in place to maintain oversight of all laboratories using these techniques so as to avoid the inadvertent introduction of spurious dialetic sonation and similar instabilities that could disrupt the experiment and end life as we know it.
While not within our area of expertise, we are aware that our work may have implications for theology and for the perceived role of God.
REFERENCES
Jesson-Smith, E. 2012 Nascent diatomous collapse of non-eigenvalue transferential orbits. Am. Jrn. Astr. 811: 12-14.
Jesson-Smith, E. 2019 Liouville’s theorem to maximise the available phase space volume within spacetime loops. Ann. Rev. Astr. 62: 121-129.
Li Chu, W. 2017 Cosmological constants and selection for lifeform viability. Science 211: 721-722.
Li Chu, W. 2019 Influence of colour-banding on the nonspecific generation of zootropic. Acta Astr. 30: 444-445.