Difference between revisions of "Dark matter"

Revision as of 21:40, 8 December 2021

Definition

Dark matter, or rather "invisible or transparent matter", is made up of extended non-particle vortex structures with low mass density (Halos, bubbles), which in turn can host structures of less extensive dark matter of higher density and Ordinary matter, vortices in vortices of various sizes, with dimensional resonances in correspondence with the celestial objects that we commonly observe: from the more extensive cosmic structures, to the gigantic voids, super clusters, galaxy clusters, the galaxies themselves, star clusters, planetary systems, etc.

These are vast Structures of Information (Vortices) in the Elementary Field, in the derived space-time field, characterized by low values of Perturbation or in other words low mass density, which fill the entire infinite space of the evolving Universe. Together these structures made up the cosmic network of Dark matter, on whose boundaries the Ordinary matter that we observe in the cosmos forms and collects (the dark matter cosmic web).

Common definition

(Link to Wikipedia page: Dark_matter).

Description

None of the most common hypotheses about dark matter are really satisfactory and confirmed from an observational / experimental point of view:

• Light bosons
  • quantum chromodynamics axions
  • axion-like particles
  • fuzzy cold dark matter
• Neutrinos
  • Standard Model
  • Sterile neutrinos
• Weak scale
  • supersymmetry
  • extra dimensions
  • little Higgs
  • Effective field theory
  • Simplified models
• Other particles
  • Weakly interacting massive particles
  • Self-interacting dark matter
  • Superfluid vacuum theory
• Macroscopic
  • Primordial black holes
  • Massive compact halo objects (MaCHOs)
  • Macroscopic dark matter (Macros)
• Modified gravity (MOG)
  • Modified Newtonian dynamics (MoND)
  • Tensor–vector–scalar gravity (TeVeS)
  • Entropic gravity

(Source: Wikipedia Dark matter page)

See also

• Dark matter
• Halos / Vortices
• Ordinary matter
• Particles / Vortices
• Matter structures
• Dark structures
• Interactions between Matter and Energy
• Interactions between matter halos / particles (Vortices) and radiation (Waves)
• Energy in the structured Field
• Energy structures
• Vortices

Links to the related sections of the TFNR Paper

• TFNR - The Structures of Information
• TFNR - Waves – Radiation
• TFNR - Vortices – Elementary particles of matter
• TFNR - Mixed structures – Complex vortices/particles and interactions
• TFNR - Interactions between matter and radiation
• TFNR - Properties of the Structures of Information and the connected derived forces and fields
• TFNR - The world of granularity: structures and the quantum
• TFNR - Why quantum?
• TFNR - Structures in the quantum world?
• TFNR - Quantum structures and quantum fields?
• TFNR - Potential energy of a quantum field
• TFNR - Wave, Vortices, Interactions: Radiation and Matter
• TFNR - The duality problem: wave vs Particle models of e.m. radiation and particles
• TFNR - Waves and vortices (simple particles) moving in the Field
• TFNR - No point particles, no singularities
• TFNR - The emergence of granularity
• TFNR - Jelly balls in jelly flippers: the weirdness of quantum world
• TFNR - Quantum structures in a continuous world: continuity and quantization
• TFNR - Quantum fields in the terms of the structure and dynamics of the Elementary Field
• TFNR - Fields always exists even when they do not appear: events and phenomena as manifestations of fields
• TFNR - Energy, coherence, correlation
• TFNR - The Standard model of particles is substantially correct, but…
• TFNR - The non-particle nature of the most part of the world
• TFNR - Are we made of baryonic matter?
• TFNR - Gravitational and electromagnetic fields as a partial view of the dynamics of the Elementary Field
• TFNR - A general concept of Inertia
• TFNR - Complex forces and fields
• TFNR - Continuity and quantization, fields and particles, waves and vortices: the duality
• TFNR - Locality, separability, individuation and measurement
• TFNR - Observing Structures from absolute or relative perspectives
• TFNR - The non-particle nature of the most part of the world
• TFNR - Are we made of baryonic matter?
• TFNR - Dark and ordinary energy: a different kind of physical quantities
• TFNR - Dark and ordinary matter: not just a matter of density
• TFNR - The distribution of dark matter in space
• TFNR - The evolution of dark matter in time
• TFNR - The interaction between dark and ordinary/visible matter
• TFNR - Why cannot we find the dark side of the Universe?
• TFNR - Dark Matter vs Dark Energy
• TFNR - Dark matter and dark energy: the structure of the invisible Universe
• TFNR - Energy and matter in the structured Field
• TFNR - Matter
• TFNR - Dark matter
• TFNR - Some common physical phenomena in the structured Field

Classification

• Topic id: t_dark_matter
• Belongs to the class: Matter
• Has as instances: t_dark_halos, t_grav_waves
• Belongs to the groups:
• Semantic Map: ekm|map=m_ph_dynamics&topic=t_dark_matter
• Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_dark_matter