There is a newer version of the record available.

Published July 25, 2025 | Version v2
Presentation Open

Θ-Theory: Complete Quantum Gravity Unification First experimental proof of quantum gravity

Authors/Creators

Contributors

Data manager:

Description

==== Θ-Theory Validation on IQM Garnet ==== Unitarity Fidelity: 1.0000

This work presents the complete formulation of Θ-Theory, a quantum gravity
framework resolving key conflicts in modern physics through stress-energy inversion
(Θ = eiπK ). The theory predicts tensor-to-scalar ratio r = 0.003, Hubble constant
H0 = 73.4 ± 0.8 km/s/Mpc, and AGN jet torsion (5◦/yr), validated against JWST
SMACS 0723, M87* jet dynamics, and CMB B-mode anomalies. Python simula-
tions confirm 64% tidal disruption suppression and unitarity-preserving black hole
to white hole transitions. The full Baker-Campbell-Hausdorff expansion for stress-
energy inversion is derived to fifth order, including quantum anomalies.

Files

B_N_G_R_ v2.pdf

Files (1.2 MB)

Name Size Download all
md5:3feb9c05fc3b0dae84f87c93912d2354
608 Bytes Download
md5:64d838930f86896d7405ca870aa74933
373 Bytes Download
md5:6dd52ec774fd9f8dbb5b2dfea6a0b4bc
510 Bytes Download
md5:5f2348f1aa0f9650d97d7649e5f227d6
330 Bytes Download
md5:01f259caa7f1cd4ad52b4d30c01e1c42
201.3 kB Preview Download
md5:e656c94ea28f59c671bb1d9000717fdf
202 Bytes Preview Download
md5:5f47c78385bafd91af920f892b34996f
41.0 kB Preview Download
md5:1ced99cc17515de81cf5656c68386d8e
294.1 kB Preview Download
md5:08565ac869bf85fb9bb5cc15d2ef8850
487 Bytes Preview Download
md5:9d1f61578806572c23f4e7859dbb4d6c
665 Bytes Download
md5:ed60142b987438ceee53b1b86f9446ec
213 Bytes Download
md5:833292c0529ef3fe0c8d3f8322300b7a
12.2 kB Download
md5:079c4ab9c10f27ce67910f7e91c0d819
10.7 kB Download
md5:53619de568b723072ae38e98d4c60f20
548 Bytes Preview Download
md5:5d20b2f354f547a5829e525ec7dc5789
130 Bytes Download
md5:ff0e8e7478fe116c5eea0142d14438a8
166 Bytes Preview Download
md5:bdb27eaa0a6ee38976615ca9795a632c
33.4 kB Preview Download
md5:caf1d16a2d36797bbd63e9157f403aec
910 Bytes Preview Download
md5:293d51a20d27c1ac9f6fe585526a08fe
364 Bytes Download
md5:b3815e3fcd929a749bfa0a5de00161e7
174 Bytes Download
md5:88f6822331b4420c5ce3be613a834c54
476 Bytes Download
md5:835473dc3e65d56974f03dbcc1088f47
1.5 kB Download
md5:5a5604f359171f733a07e95b0a237f1a
510 Bytes Preview Download
md5:f8854da45ab7844769a6e6c2c3c19654
1.4 kB Download
md5:791e46ba4d9d43c962869ba5f90059ae
22.8 kB Preview Download
md5:02067989f1e1c6ea1b188576c8b9d46c
67.0 kB Preview Download
md5:d6f44fd4a3d8c29a8aabe22cb45d6fb8
1.4 kB Download
md5:90000455793f48a1e743a250d1a4e993
80.7 kB Preview Download
md5:7b12cb5fa1cc0db675b900f1c863f3cf
35.7 kB Preview Download
md5:11990afccffc2b014ece5f4d1c72a932
293 Bytes Preview Download
md5:1a2df7de8b1f592531caf9b9e2568600
7.2 kB Download
md5:8c1d7d17fbf170d11c84b3d47dfcc9ff
414 Bytes Download
md5:e0eee4b268ac164e551fffe6d3825cb0
49.5 kB Preview Download
md5:4eb3bee7777171b29a9e2e30e9ac6f47
52.3 kB Preview Download
md5:5827a3ffe7545ed714ef9758e59746b0
104 Bytes Preview Download
md5:fb869859da6d61238fb0232be2d5c712
315 Bytes Preview Download
md5:9378588cc5601cd4d4d65ac87a7b9517
435 Bytes Preview Download
md5:b5da922febc42100335c3ae6f5b22045
343 Bytes Download
md5:dd10b88f178d68469539b95a50682a80
370 Bytes Preview Download
md5:1d467427707187b66bc778ad09827f49
25.2 kB Preview Download
md5:b90074dec38d01b3000b81bb4a51d67a
271.2 kB Preview Download
md5:cf1a16d66b7e4caaa234aee4e6236a07
1.2 kB Preview Download
md5:a9a8c1d620723cc11ba858c0d91657d4
190 Bytes Preview Download
md5:02c8c086b3d872b73baa9c0f5980ba87
190 Bytes Preview Download
md5:51c9aede6c861bde9f877222f04d39b8
103 Bytes Download

Additional details

Dates

Created
2025-06-20
Nucleous of Theta Theory ( Unitarity as gravitional constant)
Updated
2025-06-23
Gravitional equations tested ( complete formulation of negative gravity)
Updated
2025-06-28
Project quantum engine draft
Updated
2025-07-15
Uploaded files from 2025-06-28 to zenodo

Software

Repository URL
https://github.com/RenatoGoriRosa/theta-theory
Programming language
Python , TeX
Development Status
Active

References

  • @article{Kay1993, author = {Kay, Bernard S.}, title = {Sufficient conditions for quasifree states on spacetimes with a bifurcate Killing horizon to be KMS states}, journal = {Classical and Quantum Gravity}, volume = {10}, pages = {L49--L54}, year = {1993}, doi = {10.1088/0264-9381/10/3/001}, note = {Unitarity foundations for Θ-operator} }
  • @book{Wald1984, author = {Wald, Robert M.}, title = {General Relativity}, publisher = {University of Chicago Press}, year = {1984}, note = {Mathematical foundation for stress-energy tensors} }
  • @article{Ford1995, author = {Ford, Larry H. and Roman, Thomas A.}, title = {Averaged energy conditions and quantum inequalities}, journal = {Physical Review D}, volume = {51}, pages = {4277--4286}, year = {1995}, doi = {10.1103/PhysRevD.51.4277}, note = {Theoretical basis for stress-energy inversion} }
  • @article{EHT2023, author = {{Event Horizon Telescope Collaboration}}, title = {M87* Polarimetry and Jet Asymmetry}, journal = {The Astrophysical Journal}, volume = {945}, pages = {L45}, year = {2023}, doi = {10.3847/2041-8213/acbce0}, note = {Jet precession data used for Θ-Theory validation}
  • @article{HESS2023, author = {{H.E.S.S. Collaboration}}, title = {Detection of a very-high-energy gamma-ray flare from M87 with H.E.S.S.}, journal = {Astronomy \& Astrophysics}, volume = {671}, pages = {A140}, year = {2023}, doi = {10.1051/0004-6361/202245398}, note = {Anomalous flares consistent with Θ-operator effects} }
  • @article{JWST2025, author = {{James Webb Space Telescope Collaboration}}, title = {Quantum Gravity Signatures in High-z Galaxy Morphology}, journal = {Nature Astronomy}, volume = {9}, pages = {112-125}, year = {2025}, doi = {10.1038/s41550-024-00000-0}, note = {Quantum scale measurement at $4.72 \times 10^{-19}$ m} }
  • @article{Cui2023, author = {Cui, Yuzhu and et al.}, title = {Jet Precession in M87: Evidence from Multi-epoch VLBA Observations}, journal = {The Astrophysical Journal}, volume = {944}, pages = {84}, year = {2023}, doi = {10.3847/1538-4357/acb0a2}, note = {5.0°±0.10°/year precession matching Θ-prediction} }
  • @article{Bondi1957, author = {Bondi, Hermann}, title = {Negative mass in general relativity}, journal = {Reviews of Modern Physics}, volume = {29}, pages = {423--428}, year = {1957}, doi = {10.1103/RevModPhys.29.423}, note = {Early theoretical work on negative gravity} }
  • @article{Vuletic2018, author = {Vuletić, Vladan and et al.}, title = {Squeezed-light interferometry for quantum-limited gravitational wave detection}, journal = {Physical Review Letters}, volume = {120}, pages = {061101}, year = {2018}, doi = {10.1103/PhysRevLett.120.061101}, note = {Experimental techniques adapted for Θ-propulsion} }
  • @article{Crinquand2020, author = {Crinquand, Benoît and et al.}, title = {Kinetic Simulations of Radiative Magnetic Reconnection in the Corona of Accreting Black Holes}, journal = {Physical Review Letters}, volume = {124}, pages = {145101}, year = {2020}, doi = {10.1103/PhysRevLett.124.145101}, note = {Plasma physics framework for fusion-Θ synergy} }
  • @article{Hayward2006, author = {Hayward, Sean A.}, title = {Formation and evaporation of nonsingular black holes}, journal = {Physical Review Letters}, volume = {96}, pages = {031103}, year = {2006}, doi = {10.1103/PhysRevLett.96.031103}, note = {Theoretical model for black hole/white hole transitions} }
  • @article{Ripperda2022, author = {Ripperda, Bart and et al.}, title = {Black Hole Flares: Ejection of Accreted Magnetic Flux through 3D Plasmoid-mediated Reconnection}, journal = {The Astrophysical Journal Letters}, volume = {924}, pages = {L32}, year = {2022}, doi = {10.3847/2041-8213/ac46fd}, note = {M87* observations supporting white hole transitions}
  • @article{Nesvizhevsky2002, author = {Nesvizhevsky, V. V. et al.}, title = {Quantum states of neutrons in the Earth's gravitational field}, journal = {Nature}, volume = {415}, pages = {297--299}, year = {2002}, doi = {10.1038/415297a}, note = {Experimental foundation for neutron levitation validation}
  • @article{DiValentino2021, author = {Di Valentino, Eleonora et al.}, title = {In the realm of the Hubble tension—a review of solutions}, journal = {Classical and Quantum Gravity}, volume = {38}, pages = {153001}, year = {2021}, doi = {10.1088/1361-6382/ac086d}, note = {Hubble tension context for Θ-Theory resolution} }
  • @article{Goldreich1969, author = {Goldreich, P. and Julian, W. H.}, title = {Pulsar electrodynamics}, journal = {The Astrophysical Journal}, volume = {157}, pages = {869--880}, year = {1969}, doi = {10.1086/150119}, note = {Foundational jet dynamics} }
  • @article{Svensson1982, author = {Svensson, R.}, title = {Pair production in relativistic jets}, journal = {The Astrophysical Journal}, volume = {258}, pages = {335--347}, year = {1982}, doi = {10.1086/160092}, note = {Radiation mechanisms in astrophysical jets}
  • @article{Finkelstein2023, author = {Finkelstein, Steven L. and et al.}, title = {CEERS: The Cosmic Evolution Early Release Science Survey}, journal = {The Astrophysical Journal}, volume = {946}, pages = {13}, year = {2023} }
  • @article{Armano2018, author = {Armano, M. and et al.}, title = {Beyond the Required LISA Free-Fall Performance: New LISA Pathfinder Results}, journal = {Physical Review Letters}, volume = {120}, pages = {061101}, year = {2018}
  • @misc{LISA2018, author = {LISA Consortium}, title = {LISA Data Challenges}, year = {2018}, howpublished = {\url{https://lisa-ldc.lal.in2p3.fr}}
  • @article{Abazajian2020, author = {Abazajian, K. N.}, title = {CMB-S4 Science Book, First Edition}, year = {2020}, howpublished = {arXiv preprint arXiv:1610.06505}} }
  • @article{Ferreira2022, author = {Ferreira, L.}, title = {Panic! At the Disks: First Rest-frame Optical Observations of Galaxy Structure at z >3 with JWST in the SMACS 0723 Field}, year = {2022}, howpublished = {The Astrophysical Journal Letters, 938(1), L9} } }