Question AXION GLUON MATTER AS DARK MATTER

[Harry Costas]

That is what I have done.
You have to be inside of the monster to understand its habits.

 

[Atlan0001]

That is what I have done.
You have to be inside of the monster to understand its habits.

No Harry. I hate to have tell you, you only too obviously described mass matter observations from a viewpoint outside-in, not inside-out. Universes, and all they are, are very, very different entities inside-out from what they are outside-in. Holes, voids, vacuums, vector gravitationally opening systems (inversely squaring fractal zooms structure of universe) to infinities, from the inside-out.

 

[Harry Costas]

I see it from a different point of view so to speak.

You have to be inside the condensate to understand its properties.

Just seeing the effects does not explain how it comes about.

One more thing there is only one Universe.

 

[Harry Costas]

We need to understand the internal workings of condensates to understand their properties and the resultant images created by their vortices.

[Submitted on 26 Aug 2024]

GALPs! Composite heavy axion-like Dark Matter​

Pierluca Carenza, Roman Pasechnik, Zhi-Wei Wang

We propose a novel class of Dark Matter (DM) candidates in the form of a heavy composite Axion-Like Particle (ALP) with highly suppressed electromagnetic interactions, being stable even for masses exceeding the GeV scale. We argue that such a composite ALP emerges as a bound state -- the dark glueball -- due to confinement in a pure Yang-Mills dark sector. In a minimal ultraviolet complete QCD-like model, cosmological production of dark gluons as well as photons occurs via heavy fermion annihilation which effectively reheats both the dark and visible sectors setting up their temperature scales. Furthermore, effective interactions between glueballs and photons, resembling those of standard ALPs, are radiatively generated by heavy fermion loops. Consequently, DM glueballs interacting with photons are dubbed `Glueball ALPs' (GALPs). We uncover novel phenomenology of GALPs focusing on their unique astrophysical and cosmological signatures.

 

[Harry Costas]

Axion Gluon Matter may be confined by Partonic and or by Quark matter, to confine Quark matter by Neutron matter.
To confine Axion Matter under lab conditions is probably impossible for now.

[Submitted on 9 Sep 2024]

Axion Icebergs: Clockwork ALPs at hadron colliders​

Srimoy Bhattacharya, Debajyoti Choudhury, Suvam Maharana, Tripurari Srivastava

The conventional ultralight QCD axion is typically rendered invisible at collider experiments by its large decay constant. What could also hint at its possible existence is the observation of other (heavy) particles that are characteristically related to the light axion. One such scenario is afforded within the framework of the clockwork mechanism where the axion can have suppressed couplings with the gluons or photons while its companion axion-like particles (ALPs) have relatively unsuppressed couplings. We study a minimal clockwork model for the QCD axion invoking a KSVZ-like setup and examine the visibility of the ALPs (an) at the LHC through the process pp→an(+additionaljets), an→γγ. The model contains N ALPs with a decay constant f and masses defined by a scale m characteristic of the nearest-neighbour interactions of the scalar fields. For 10≲m≲100 GeV, f∼1 TeV and N∼O(10), the full spectrum of ALPs is accessible and the corresponding diphoton invariant mass distribution comprises a unique signature of a wide band of resonances. For the case of light ALPs (m∼O(10GeV)) with the axion being a dark matter candidate, the mass-splittings among the former are so small that the signal profile mimics that of a single broad resonance, or an axion iceberg. The effect subsides for heavier ALPs, albeit still exhibiting undulating peaks. For light ALPs, the scenario is imminently testable by the end of LHC's Run 3 phase, with the estimated cumulative significance reaching the discovery threshold for an integrated luminosity of ∼300fb−1. While the signals for the heavier ALPs in this minimal setup may not be as prominent within the ongoing LHC operation, one could expect to probe a wider parameter space of the model at the forthcoming HL-LHC.

 

[Thermoman]

The question whether Axion Gluon matter could be Dark Matter, is worth reaching. Other threads relating to this topic are worth reading.

Science never ceases to amaze me ! The question is whether something written could be something written !

Other threads , can I be sarcastic ? Are these other threads Harry Potter and Pepper Pig ?

This forum has a fiction section ?

Why does science accept so much garbage science ?