With a background in cosmology, quantum gravity, and the mathematical structure of spacetime, my academic journey has been driven by a deep curiosity about the early universe. My research has focused on inflationary dynamics, anisotropic cosmological models, and exploring conceptual bridges between general relativity and quantum theory. This page presents an overview of my research background, core interests, and ongoing work.
๐ฌ Research Interests
- Cosmic Inflation: Studying the background dynamics and quantum fluctuations of scalar fields that drive early-universe expansion.
- Quantum Gravity: Investigating conceptual approaches toward unifying general relativity and quantum mechanics.
- Anisotropic Cosmology: Exploring Bianchi Type-I models and directional dependencies in pre-recombination cosmology.
- Tensor Perturbations & Gravitational Waves: Understanding the propagation of primordial fluctuations and their imprint on the cosmic fabric.
- String-Theoretic Connections: Conceptually relating early-universe phenomena to ideas rooted in string theory and higher-dimensional physics.
๐ Past Research
- MSc Thesis (University of Nottingham): "Cosmic Inflation: Background Dynamics and Quantum Fluctuations" – This work involved studying the evolution of scalar fields during inflation using the slow-roll approximation and perturbation theory, focusing on quantum fluctuations as seeds of structure formation.
- MSc Thesis (Royal Global University, India): "A Study of the Cosmic Singularity Based on Hawking Radiation" – This project explored singularity formation and evaporation within the framework of black hole thermodynamics and quantum field theory in curved spacetime.
๐งช Ongoing Research
- Title: “Dynamics of Scalar and Tensor Fields in a Bianchi Type-I Model”
A study of anisotropic pre-recombination cosmology within the Bianchi I framework, examining the evolution of the universe through scalar field equations, directional pressure-density relations, and tensor perturbations to predict redshift behavior in gravitational waves. - New Research Idea: “Multiversal Temporal Field Theory”
A theoretical proposal toward reconciling multiverse-based cosmology with field equations defined over a temporally-connected higher-dimensional manifold. The idea aims to explore conservation laws, symmetry breaking, and field interactions in a multiversal spacetime setting.
๐ Research Vision
My long-term goal is to contribute to a consistent framework of quantum gravity by exploring how quantum fluctuations, anisotropy, and field dynamics can shape cosmic evolution. I’m particularly interested in using mathematical models to bridge general relativity and quantum field theory — and possibly uncover insights that bring us closer to resolving the nature of singularities, time, and spacetime structure.
If you’re interested in discussing these topics or collaborating on theoretical physics research, feel free to reach out to me here.
