Paradoxical effect
Revolutionary discoveries
UVS worldview
UVS model
UVS inspirations

The UVS inductive resolution on the debris disk of star

Based on the UVS model, the nested debris disk of a star, is consolidated by a flattened nested stellar polar vortex pair.

In the UVS worldview, the debris disk of Vega is vortically formed on an accretion disk impelled by a flattened dual-core polar vortex pair.

The burgeon at two o'clock position at the far side of the Vega star as illustrated in the simulated image at near right, is supposedly a satellite vortex driven in the cavity of its meandering polar vortex, and this infers that the debris disk is spinning in counter-clockwise direction from this view.

The debris disk as discovered with a size of 815 AUs, and the nested rings suggests there is a huge nested plasmasphere enveloping the Vega star.

The Hourglass Nebula also demonstrated a huge flattened disc formed around its diffused star, and it was manifested inside a even larger plasmatic vortical structure.

IRAS satellite discovered a nested
dual-core debris disk of Vega (*).
The Hourglass Nebula, a difussed star with a nested flat disk. 

UVS predicates that the debris disk of star is consolidated by a flattened nested stellar polar vortex pair.

See the UVS topics on "The UVS atomic nucleus model" that elaborates on the how a 3-sphere hypersphere structure for the Vega star could be vorticlly formed, and "Heliosphere" that elaborates on how accretion disk is vortically formed.

The cognitive paradox that renders star's dusk disk as a mysterious phenomenon, was thus resolved by the illustration of its underlying mechanism.

Do a thought experiment to visualize a nested spheroidal torus structure in its two-axis spin has its inner nested layers flattened on its tilted axis, and thus the nested bipolar polar vortex pair could form two vortical focal points in the accretion disk; this mechanism could render the dual-core center of the debris disk.

From the UVS perspective, the nested rings outside the dual-core center are formed by the flattened nested plasmasphere of the outer nested layers, and this effect renders the nested ring structure of the debris disk that encapsulates the dual-core center.

A nested
torus structure.

The dual-axis
of a spheroid.

From the UVS perspective, in vortical motion of the planetary system, the flattened dual-core vortical column in its precession effect culminates angular momentum in its two-axis spin to impel its vortrex to form as a spheroidal structure in the nucleus of the planetary system. And with clouds of hydrogen atom coalesced and confined inside the manifested strong vortical repulsion force of its vortrex, the consolidated clouds of hydrogen with the dynamo effect of its undulating spinor field, were thus formed as a lit up star with the electric glow discharge of the vortically coalesced hydrogen atoms. The star spiral to revolve around its external mass center of its star system to revolve around the Galactic Center, could periodically move in and out of the main vortex column that supposedly is a magnetic ring center, and it thus causes the star to periodically flip its magnetic pole.

See the UVS topics on "Monopole system" that illustrates a possible configuration of monopols system, "The mysterious planetary rings" that illustrates how the gas giants could have formed their planetary rings with the similar vortex mechanism, and "The structures of planetary nebulae" that illustrates how all sorts of nebula could be vortical formed. Watch a series of video on "Primer fields" that presents an intriguing solution with a plasma experiment to explain numerous phenomena of nature from the macrocosms to the microcosms.

The grounding for its epistemic theories of truth: The underlying structure and mechanism of star's debris disk as explicated with its hypothetical construct based on the UVS model, elucidated its delusional observation that has been rendering it as a mysterious phenomenon. Thus, its cognitive paradox was simply dispersed, and all the related natural phenomena were then qualitatively analysed in the conceptual framework of UVS by inductive reasoning for explicating with their empirical evidence to predicate by abductive reasoning.

See the UVS topic on "Overviews of the UVS research" that elaborates on the grounded theory methodology for the evaluations of natural phenomena.

From the UVS perspective, the inner nested accretion disk of the planetary system, renders the debris rings phenomenon with spoke lines within its much larger vortically flattened and meandering polar vortex pair of its planetary system.

Based on unisonal vortex mechanism, the spokes of the Fomalhaut star are satellite plasma vortices that have flattened around the accretion disk of a flattened polar vortex pair.

From the UVS perspective, the Fomalhaut star has a dual-core magnetic Ring Center that is rendered by its vortically flattened dual-core polar vortex pair. And apparently, these spokes supposedly revealed by the scattered starlight and their plasma glows, are pointing to the two focal points of the dual-core magnetic Ring Center of the star.

UVS predicates that the Ring Center of a star is a polar vortex center of its planetary system.

See the UVS subtopic on "The dual-core magnetic Ring Center of the Solar System" that illustrates how the gas tail of a comet could be tracking the spokes of the dual-core magnetic Ring Center.

The debris ring of the Fomalhaut star with spoke lines.

From the UVS perspective, the spokes appeared as radiating outwardly is a vortical effect of manifested aetheric jetstreams. The underlying jetstreams of satellite plasma vortices formed as spokes around the planetary system, vortically consolidate charged dust particles that glows with scattered starlight and possibly plasma discharge.

UVS predicates that the glowing spokes on debris disk of a star are satellite plasma vortices.

The image on right is an aurora manifested on Earth with glowing spokes. From the UVS perspective, these are satellite plasmatic vortices of longitudinal waves formed on an accretion disk in the ionosphere.

Based on the UVS model, the spokes are huge harmonics vortices formed at different angular phase within the main flattened plasmatic vortex that impels the satellite vortices to form as longtitudinal waves.

And in a radial manner as glowing spokes in the accretion disk, the undulating viscous matters with culmination of angular momentum, are vortically tunneling in the vacuum of the satellite vortex columns that move toward the magnetic Ring Center of the underlying plasmatic vortex.

An aurora manifested on Earth with glowing spoke lines.

Visible-light image of Fomalhaut - Hubble Space Telescope.
Composit image for dust ring of Fomalhaut captured with the ALMA telescopes.
SCUBA image of dust around Fomalhaut.

Star HD 107146 - Hubble Space Telescope.


All celestial objects are externally impelled to rotate and revolve
in vortical motion with resonated precession effects.
- UVS inspired



~ With special thanks to anonymous from Singapore for his private message highlighting the link on "Star HD 107146" that illustrates the spoke lines in the dusk disk of this star.


8th Oct 2007

References and links:
Debris disk - From Wikipedia, the free encyclopedia
Vega - From Wikipedia, the free encyclopedia
Accretion disk - From Wikipedia, the free encyclopedia
Fomalhaut debris ring - ScienceDaily

Superposition principle - From Wikipedia, the free encyclopedia
Fomalhaut - From Wikipedia, the free encyclopedia
Longitudinal waves - From Wikipedia, the free encyclopedia
Planetary system - From Wikipedia, the free encyclopedia
Electric glow discharge - From Wikipedia, the free encyclopedia
Star system - From Wikipedia, the free encyclopedia
Galactic Center
- From Wikipedia, the free encyclopedia
Image of Aurora - From Wikipedia, the free encyclopedia

The Vega star and images
- SolStation.com
Image of hourglass nebula - Phoenix Mars Mission
Optical image of star Vega with debris disk - SST, JPL, CalTech, NASA
Image of a two-axis spheroid - From Wikipedia, the free encyclopedia
Image of star Fomalhaut in visible light - NASA/ESA/T. Currie, U. Toronto
Image of Fomalhaut from the ALMA - By LMA (ESO/NAOJ/NRAO), NASA/ESA Hubble Space Telescope, National Radio Astronomy Observatory), and W. Dent (ALMA, Chile)
SCUBA image of dust around Fomalhaut - By Joint Astronomy Centre with James Clerk Maxwell Telescope
Image of Star HD 107146 - From Wikipedia, the free encyclopedia
Image of the Cat's Eye Nebula, NGC 6543 - From Wikipedia, the free encyclopedia
Image of the Helix Nebula, NGC 7293 - ESO


Disclaimers: The treatise of Universal Vortical Singularity (UVS) in its epistemological paradigm shift, is fundamentally unconventional. Its hypotheses grounded on a generally unheard-of UVS model, bound to have shortcomings, such as loose ends, errors, and omissions errors. Many details and assumptions in its propositions have yet to be further researched, probed, evaluated, validated, or verified. Its implicit explanations are for casual understanding of the UVS topics presented in the UVS worldview, so if any term or statement is offensive in any manner from whatsoever perspectives, is most regretted. Links to other sites do not imply endorsement of their contents; apply appropriate discretion whenever necessary. Also, the content of the UVS topics, from time to time could be arbitrarily modified without any notice.

Viewing tips: Despite the presentations of the UVS web pages has went through much accommodation for their viewings on smart phones, they are still not entirely friendly to these mobile devices. For the best experiences, use a MS Windows based PC or computer system with Java enabled browser for running its interactive applets. (Such as Java Applet of Moiré pattern, JPL Small-Body Database Browser, and Planet Finder.)

Copyright information: This UVS web site is for non-profit purposes and not for commercial use. Wherever possible, direct credits to the origins of the works or images were provided, be it on fair dealings, with explicit permission from their owners, or the materials were believed to be from the public domain.