Will the first detected BSM particle's mass be above 1 GeV?
Plus
12
Ṁ1812030
66%
chance
1D
1W
1M
ALL
If a detection is widely contested, I will use my (somewhat conservative) discretion.
In the event of no detection by close time, this will resolve to MKT.
This question is managed and resolved by Manifold.
Get
1,000
and3.00
Sort by:
It's possible that we discover two BSM particles at the same time, for example a <1 GeV dark neutrino and a >1 GeV dark gauge boson, something like this paper https://arxiv.org/abs/1807.09877. I wonder how this would resolve in that case.
@Eel13 resolving 50% seems most reasonable in that case. And if there are 3 discoveries, resolving 33% or 66% similarly
@EvanConrad There are certainly no experiments that are /expected/ to detect a BSM particle, regardless of timeline; that is, if by "expected" you mean "consensus that the probability that a particle is detected is greater than 50%".
@ScottLawrence
I mean more: "There exists a theory X that suggests there is a BSM particle, and an experiment is currently funded or underway to test theory X"
@EvanConrad Then yes. But note that theories typically have free parameters, and therefore don't predict "there should be a BSM particle with mass 845.68 GeV", but rather "there might be a particle with these sorts of interactions, and masses between 120 MeV and 8 TeV haven't yet been ruled out by cosmological observations or other experiments". (This is a caricature. At the very least one must also keep track of interaction strengths, which are typically independent free parameters.)
So, for example: WIMP dark matter. See PandaX (https://en.wikipedia.org/wiki/PandaX) for one of many in-progress experiments. And here (https://en.wikipedia.org/wiki/Weakly_interacting_massive_particles#/media/File:CDMS_parameter_space_2004.png) is a probably-not-up-to-date exclusion plot.
Related questions
Related questions
What will be the mass of the first detected BSM particle, in eV?
1b
By 2030, will the Mu2e experiment at Fermilab find signals of physics beyond the Standard Model?
27% chance
Will a Beyond the Standard Model Particle be discovered by 2025?
18% chance
Will charged lepton flavor violation via muon to electron conversion be observed by 2030?
30% chance
When will (inelastic) graviton-* scattering be observed?
2046
Which hypothetical elementary particles will be discovered by 2060?
Will we discover a new, (believed to be) non-composite particle by 2050?
45% chance
What will be the next elementary particle discovered?
Will a graviton be directly observed in a peer-reviewed paper before 2100?
38% chance
When will we measure the mass of neutrino?