Top Tweets for #Galacticdynamics
So total EM energy becomes:
E_EM ≈ 3 × 10⁴⁵ to 2 × 10⁴⁶ J
#NMSI #PONG #DarkMatter #MilkyWay #Galaxy #PlasmaPhysics #Cosmology #Astrophysics #Electromagnetism #SpaceScience #Physics #Ormuz_Iran #NoDarkMatter #GalacticDynamics #RON #JWST #Euclid #SKA
https://t.co/aLhAKnGIp7
In the 1930s, when astronomers began measuring the rotation of spiral galaxies, they discovered something apparently impossible.
Stars at the outer edges of galaxies were moving far too fast for the amount of visible matter present.
According to classical gravitational models, galaxies should have literally torn themselves apart.
To preserve the standard framework, physics introduced Dark Matter, an invisible and still undetected component meant to provide the “missing mass.”
Yet after nearly a century:
no Dark Matter particle has ever been directly detected
not at CERN
not in underground detectors
not in direct cosmological observations
At the same time, modern observations started revealing something even more important:
Galaxies do not behave like simple gravitational collections of isolated stars.
They oscillate.
They undulate.
They exhibit coherent collective motions, including the recently observed “butterfly wobble” behavior of the
This is where the NMSI framework introduces the concept of PON-G, the Galactic Plasma Oscillatory Network.
In NMSI, galactic plasma is not a passive medium.
It acts as a gigantic electromagnetic coupling layer linking stars, magnetic fields, and energetic fluxes into a coherent oscillatory structure.
In other words, a galaxy behaves less like a cloud of independent objects and more like a coherent flexible membrane filled with stars.
This changes the interpretation completely.
Galactic rotation becomes a collective plasma and electromagnetic coherence effect.
Density waves emerge naturally.
Butterfly oscillations become expected membrane-like dynamics.
Large-scale synchronized motions stop being anomalies.
Even more important:
PON-G itself possesses a substantial physical mass, estimated to represent roughly 15% of the total galactic mass.
This is critical because the oscillatory motion of such an enormous plasma structure can generate colossal electromagnetic fields.
The local magnetic intensity measured per square meter may appear relatively weak.
But when integrated across the entire galactic surface and volume, the result becomes an enormous electromagnetic structure on cosmic scales.
A true EM giant.
This may explain why galaxies behave elastically, maintain coherent structures across enormous distances, and respond collectively to external perturbations.
Within this interpretation, there is no need to invoke exotic invisible matter to “hold galaxies together.”
The issue was not missing mass.
The issue was treating galaxies as purely gravitational systems while ignoring large-scale plasma coherence and electromagnetic coupling.
In NMSI, the Universe is not an inert gravitational machine.
It is a coherent oscillatory network of plasma, fields, and informational fluxes.
And Dark Matter may ultimately prove to be not a real substance, but the artifact of an incomplete physical interpretation
For more info:
https://t.co/kjY6BSJJHi
#NMSI #DarkMatter #MilkyWay #Galaxy #PlasmaPhysics #Cosmology #Astrophysics #Electromagnetism #Space #Physics #JWST #Science #Universe #GalacticDynamics #PONG #PlasmaUniverse
That’s it for the science from #iaus353 #galacticdynamics, now just some closing remarks from SOC Chairs, Monica Valluri and Juntai Shen.
Questions for Kamdar coming first from Tremaine, then Binney. Seems he’s doing #galacticdynamics they find quite interesting! #iaus353
We’re back in the Milky Way with a review talk on the LAMOST survey from Yang Huang. #iaus353 #galacticdynamics
Bezanson showing convincing evidence for lots of quiescent discs at high redshift, and echoing results we’ve seen at low redshift that SF quenching does not have to be accompanied by structural change. #redspirals #galacticdynamics #iaus353
Quick summary - total mass is tricky, and possibly not measurable, we need to define a lower radius mass point? Shape probably changes with radius so shouldn’t quote single value. #galacticdynamics #iaus353
Hattori’s result easiest to explain graphically - he finds from models of two different hypervelocity stars the halo is more likely prolate. #galacticdynamics #iaus353

This speed means they move 10kpc in 10Myr so can probe the current shape of the dark matter halo better than other more slowly moving tracers. #galacticdynamics #iaus353
Back after lunch with on last talk on the shape of the Galactic halo - this time from hyper velocity stars, by Kohei Hattori. #iaus353 #galacticdynamics
These data reveal that most orbits of stars in the diffuse stellar halo are quite radial (stars move in and out in radius significantly as they orbit). #galacticdynamics #iaus353
Bird is using data on stars from LAMOST, @sdssurveys and Gaia. Specifically K-giants and blue horizontal branch stars (because they’re bright so you can see them at large distances). #galacticdynamics #iaus353
Final talk before lunch is Sarah Bird with more on observational constraints on the Galactic mass and halo shape. #iaus353 #galacticdynamics
We really should have had undergraduate physics terms bingo at this conference. We just got “collisionless Boltzmann equations” #iaus353 #galacticdynamics
J. Han lamenting a factor of 5 scatter in measures of MW halo mass from different methods. To this extragalactic astronomer that sounds pretty good honestly. #galacticdynamics #iaus353 1000-5000 billion solar masses is the range he quotes.
Binney with an interesting point in response to a question - bars and discs form together, so we actually develop limited understanding of bars by simulating how they form from a stable axisymmetric disc. “That’s not how nature works” #galacticdynamics #iaus353
Here’s Carlberg’s homage to Pollack created by modeling the disruption of infalling satellites colour coded by the subhalo they started in. #galacticdynamics #iaus353

Carlberg thinks of the Galaxy as a “bunch of oscillators” - physics undergrads take note - there’s even simple harmonic oscillation here. #galacticdynamics #iaus353
Next up is Ray Carlberg with even more on tidal streams in the Milky Way halo. We’re seeing nbody movies. Always fun. #iaus353 #galacticdynamics
Now Kaley Bauer talking about using some really unusual stars to possibly trace infall of ultra faint dwarf galaxies. #iaus353 #galacticdynamics
So this might be evidence that these came from different sources than we thought (eg including that they formed in the Milky Way, like @DudeDarkmatter said). #galacticdynamics #iaus353
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