DHAIRYA SHAH
Independent Researcher | Theoretical Physics & Cosmology [Vadodara, Gujarat, India] |
[ [email protected]]
[ [email protected]]
ORCID ID: [0009-0009-4021-2976] | PhilPeople Profile: [Dhairya Shah]
Research Portfolio: [ https://dhairyashah.owlstown.net/ ]
RESEARCH SUMMARY
Theoretical researcher focused on resolving the initial singularity problem in General Relativity through modified gravity frameworks. Specialized in Non-Minimal Mimetic Born-Infeld (NMBI) Gravity, 5D Tesseract-sequestered embeddings, and the stability of non-singular bouncing cosmologies.
RESEARCH AFFILIATIONS
Independent Scholar | Theoretical Physics Division | 2024 – Present
- Focus: Developing covariant actions for mimetic gravity to suppress BKL instabilities.
- International Engagement: Research preprints tracked by institutions including Lawrence University (USA) and academic hubs in Singapore.
PRIMARY THEORETICAL CONTRIBUTIONS
Non-Minimal Mimetic Born-Infeld (NMBI) Gravity
- Developed a modified Einstein-Hilbert action incorporating a Born-Infeld determinant to provide an upper bound on curvature.
- Proposed a mechanism for a non-singular "bounce" that satisfies the Null Energy Condition (NEC).
Worldline Consistency Theory
- Formulated a topological framework for maintaining causal consistency in high-curvature regimes.
- Analyzed the sequestering of 5D energy densities onto 3+1 Lorentzian manifolds.
PUBLICATIONS & PREPRINTS
- "Topological Singularity Resolution in Non-Singular Mimetic Born-Infeld Gravity: 5D Tesseract Embedding and Energy Sequestering" (2026). PhilArchive.
- "Worldline Consistency Theory (Volume 2)" (2026). PhilArchive.
- "A High-Curvature Effective Extension of Einstein Gravity via Curvature-Activated Dynamics" (2025). PhilArchive.
"Currently ranked in the Top 20% (80th Percentile) for research volume in Science, Logic, & Mathematics on PhilPeople, with Q1 Global Download metrics for the Non-Minimal Mimetic Born-Infeld (NMBI) gravity series."
TECHNICAL SKILLS
- Mathematics: Tensor Calculus, Differential Geometry, Friedmann-Lemaître-Robertson-Walker (FLRW) Dynamics, Perturbation Theory.
- Scientific Tools: LaTeX (Advanced), Mathematica/Maple (Symbolic Computation), Numerical Analysis.
- Frameworks: Mimetic Gravity, Born-Infeld Electrodynamics, Gauss-Bonnet Invariants.
EDUCATION
Secondary Education | [Your School Name, Vadodara] | Expected 202[X]
- Focus: Advanced Mathematics and Physics.
- Note: Pursuing independent, graduate-level research in Cosmology alongside standard curriculum.
ACADEMIC INTERESTS
- Quantum Gravity & Loop Quantum Cosmology (LQC)
- The Hubble Tension and Early Universe Phenomenology
- Black Hole Singularity Resolution