Independent Theoretical Physicist | Asturias, Spain
📧 jmma@movistar.es | 🔗 https://orcid.org/0009-0007-4051-6414
I develop computational frameworks to explore topological quantum field theory and holographic duality (AdS/CFT) applied to:
- QCD Confinement via topological vortex dynamics
- Entanglement Entropy in high-energy collisions (ALICE, Belle II)
- Quantum Information channels in AdS/QCD correspondence
Current work: Testing entanglement dominance in heavy-ion and e⁺e⁻ collisions using Two-Mode Squeezed States (TMSS).
Preprints
-
Entanglement Dominance in the Zero-Temperature Limit (2026)
Thesis on thermal-to-quantum phase transitions in QGP -
Holographic Topological Vortex Theory (2026)
AdS/CFT framework for bulk-boundary entanglement
Repository:
| Repository | Description | Status |
|---|---|---|
| Entanglement-Dominance-TMST | Simulation framework for entanglement phase diagrams in ALICE/Belle II data | Active |
| TDHCF-Time-Mapping | Holographic time mapping protocol (v → T → τ) | Active |
Languages: Python, LaTeX
Repository: Github, Zenodo
Focus Areas: Numerical relativity, QFT simulations, data analysis
I'm actively seeking feedback and collaboration on:
- Experimental validation with Belle II correlation data
- ALICE jet substructure measurements for entanglement studies
- Theoretical extensions to holographic QCD
Open to discussions via GitHub Issues or email.
"Science advances when unconventional questions meet rigorous methods."