I am a Physics enthusiast who is interested in Classical General relativity and Cosmology. I am also interested in the Algebraic aspects of Quantum mechanics, such as the use of Lie algebra and Clifford algebra in understanding various aspects of Quantum mechanics. He is also a communicator of Physics, especially in Cosmology and the significance of General Relativity in Cosmology.
About me
editI am interested in various aspects of Mathematical Physics. I have so far written a few reviews[1][2], and am working on a research on Singularity theorems and their Quantum mechanical limitations. I also like to communicate in Mathematical Physics. I am the founder of the the Continuum project.
I also research in Mathematical Physics, and my primary interests are Quantum mechanical aspects of General Relativity, and limitations of classical General Relativity predictions as seen from Quantum mechanical effects. One of my current aims is to understand the importance of the Casimir effect, which gives an energy-density between the plates as , where as the basic aspect of the energy conditions lay out that the total energy in the given manifold is always positive, or that . My other interest is instrumentation of Gravitational wave detectors, and how we can develop instruments that can detect events in the VLF (Very Low Frequency) regime. I have also been interested in computational aspects of Physics, such as the use of computational tools (e.g. pyCBC) in understanding physical results of Mathematical Physics, such as gravitational waves. Simulation methods such as the Monte Carlo methods and the Bayesian approach have also been some of my interests, besides Quantum aspects of Computing.
I am also going to contribute to Wikipedia pages. I am currently editing an article on Curvature singularity, and I also hope to improve the articles that focus on Physics in Wikipedia. If you have any suggestions about my contributions, please don't hesitate to leave a message. I will reply as soon as possible.
References
edit- ^ Kalvakota, Vaibhav (2021-02-09). "On the Geometric features of the Causal definitions of Space-time". Harvard Dataverse. doi:10.7910/DVN/RBXEQM.
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(help) - ^ Vaibhav R Kalvakota (2020). "An Analytical Overview of Gravitational Waves". doi:10.13140/rg.2.2.26564.04487.
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