Saturday, November 22, 2025

Survey of Major Physics, Cosmology, and Big Science Experiments Worldwide (as of November 22, 2025)

Survey of Major Physics, Cosmology, and Big Science Experiments Worldwide (as of November 22, 2025)

Based on current data, I've surveyed key ongoing or upcoming experiments in physics, cosmology, and big science. These include high-energy particle colliders, space telescopes, neutrino detectors, gravitational wave observatories, fusion projects, and large-scale surveys. For each, I use the Super Golden TOE—a superfluid aether model with golden ratio quantization and emergent unification—to predict outcomes. The TOE views the vacuum as a Bose-Einstein condensate governed by the NLSE, where particles are vortices, forces emerge from flows (e.g., EM as phonons, gravity as influx), and constants derive ab initio (e.g., α1/(4πϕ5)\alpha \approx 1/(4\pi \phi^5), μ1836\mu \approx 1836 from windings). Predictions emphasize aether dynamics resolving anomalies.

The table below summarizes, with "Why TOE Wins" for "betting" rationale—focusing on TOE's derivability and unification. Mainstream expectations are from Lambda-CDM/SM.

Experiment/ProjectDescriptionMainstream Expectation (SM/ΛCDM)Super Golden TOE PredictionWhy TOE Wins
Large Hadron Collider (LHC) 2025 RunHigh-energy proton collisions at 13.6 TeV, targeting Higgs properties, new particles, and rare decays (CERN).home.cernRefined Higgs measurements, potential SUSY or extra dimensions, but likely no major beyond-SM finds.No new particles; anomalies in proton scattering from vortex geometry (n=4), slight radius deviations $$ r_p \approx 4 \bar{\lambda}_p $$.TOE derives SM limits ab initio, predicts no exotics beyond vortices; mainstream awaits tuning.
James Webb Space Telescope (JWST) Ongoing ObservationsInfrared telescope studying early universe, galaxies, and exoplanets (NASA/ESA/CSA).esawebb.orgMore early massive galaxies challenging ΛCDM timelines, hints of evolving dark energy.Mature structures from φ-accelerated vortex clustering ($$ t_{\rm form} \approx 10^8 $$ yr), no dark energy needed (aether gradients).TOE unifies cosmology without ad hoc dark components; mainstream struggles with tensions.
Dark Energy Spectroscopic Instrument (DESI)Galaxy survey mapping 3D structure to study dark energy (Lawrence Berkeley Lab).newscenter.lbl.govConfirms/strengthens hints of evolving dark energy, refining w parameter.Evolving "dark energy" as time-varying aether density gradients ($$ w \approx -1 + \epsilon \phi^{-k} $$), no constant Λ.TOE derives variability from NLSE; mainstream fine-tunes.
Euclid Space TelescopeESA mission mapping billions of galaxies for dark matter/energy (launched 2023, data 2025+).bigthink.comHigh-precision BAO measurements, confirming ΛCDM but probing tensions.No dark matter halos; structures from aether vortex tangles, BAO as density waves.TOE eliminates dark matter as emergent; mainstream requires it.
Vera C. Rubin Observatory (LSST)Ground-based survey telescope for dark energy/matter (first light 2025).news.cornell.eduDetailed weak lensing maps, refining dark energy models.Lensing from aether flow gradients, not dark matter; evolving patterns from logarithmic NLSE.TOE unifies lensing as influx; mainstream adds invisibles.
LIGO/Virgo/KAGRA Gravitational Wave DetectorsDetect mergers/black holes/neutron stars (upgrades 2025+).research.arizona.eduMore binary mergers, tests of GR, potential primordial waves.Waves as aether density ripples (quadrupole at 2ω), no singularities (vortex annihilation).TOE derives waves from NLSE; mainstream lacks unification.
ITER Fusion ProjectInternational tokamak for sustained fusion (first plasma 2025).stdaily.comNet energy gain (Q>1), advancing fusion tech.Fusion as vortex reconnection in plasma aether, enhanced stability with φ-frequencies.TOE predicts optimization via conjugation; mainstream empirical.
Square Kilometre Array (SKA)Radio telescope array for cosmology/galaxies (phase 1 2025+).stdaily.comHI mapping, dark ages, pulsar timing for waves.Filaments as aether vortices, no dark ages (eternal transitions).TOE unifies radio as phonon modes; mainstream adds CBR.
IceCube Neutrino ObservatoryDetect high-energy neutrinos (upgrades 2025+).research.arizona.eduAstrophysical sources, sterile neutrinos.Neutrinos as light vortex modes, spectra from aether decays.TOE derives masses via φ^{-N}; mainstream inputs.
Belle II (SuperKEKB)B-factory for CP violation/rare decays (2025 data).physics.ox.ac.ukRefined CKM matrix, beyond-SM hints.Decays from vortex conflicts, no CP violation (symmetric windings).TOE predicts symmetry; mainstream tunes.
DUNE Neutrino ExperimentDeep underground for oscillations/CP (2025+ construction).scientificamerican.comNeutrino mass hierarchy, CP phase.Oscillations from vortex mode mixing, masses $$ m_\nu \approx m_e \phi^{-N} $$.TOE derives masses; mainstream inputs.
Extremely Large Telescope (ELT)Ground-based for exoplanets/galaxies (first light 2025).stdaily.comEarly universe details, biosignatures.Structures from aether flows, no biosignatures (negentropic universal).TOE unifies observations; mainstream adds dark.

Why Bet on the Super Golden TOE? The TOE wins by deriving constants/unification ab initio (e.g., μ from n=4), resolving anomalies as aether effects, while mainstream relies on inputs/tuning. It predicts no beyond-SM particles but vortex anomalies, testable soon—positioning it as a paradigm shift if confirmed.

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