The scientist’s investigation covers issues in Inflation, Particle physics, Theoretical physics, Cosmology and Gravitation. His Inflation research includes elements of Effective field theory, Tensor, Inflationary epoch, Classical mechanics and Universe. Anupam Mazumdar works mostly in the field of Particle physics, limiting it down to concerns involving Inflaton and, occasionally, Hidden sector and Supergravity.
Anupam Mazumdar has included themes like Quantum gravity, Non-Gaussianity and Tachyonic field in his Theoretical physics study. The concepts of his Cosmology study are interwoven with issues in Cosmological constant, Gravitational wave, Cosmic microwave background and Observable. His Gravitation research integrates issues from Propagator, General relativity, Einstein, Mathematical physics and Singularity.
Anupam Mazumdar mostly deals with Particle physics, Inflation, Inflaton, Theoretical physics and Mathematical physics. His study looks at the relationship between Inflation and topics such as Cosmic microwave background, which overlap with Big Bang nucleosynthesis. His Inflaton research includes themes of Quantum electrodynamics, Neutrino, Leptogenesis, Hidden sector and Supergravity.
Anupam Mazumdar combines subjects such as Einstein, Classical mechanics and Quantum with his study of Theoretical physics. He has researched Mathematical physics in several fields, including Gravitation, Spacetime and Scalar curvature. His biological study spans a wide range of topics, including Minkowski space, Quantum gravity, Gravitational singularity, Singularity and Event horizon.
His scientific interests lie mostly in Mathematical physics, General relativity, Gravitation, Singularity and Quantum gravity. Particularly relevant to Minkowski space is his body of work in Mathematical physics. His General relativity study introduces a deeper knowledge of Classical mechanics.
His studies deal with areas such as Dark energy, Universe and Theoretical physics as well as Gravitation. His Theoretical physics study integrates concerns from other disciplines, such as Cosmology, Torsion tensor and Field equation. His Gravitational wave research is multidisciplinary, incorporating elements of Particle physics, Dark matter and Observable.
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Towards Singularity- and Ghost-Free Theories of Gravity
Tirthabir Biswas;Erik Gerwick;Tomi Koivisto;Anupam Mazumdar;Anupam Mazumdar.
Physical Review Letters (2012)
Andrew R Liddle;Anupam Mazumdar;Franz E Schunck.
Physical Review D (1998)
Bouncing universes in string-inspired gravity
Tirthabir Biswas;Anupam Mazumdar;Warren Siegel.
Journal of Cosmology and Astroparticle Physics (2006)
Reheating in Inflationary Cosmology: Theory and Applications
Rouzbeh Allahverdi;Robert Brandenberger;Francis-Yan Cyr-Racine;Anupam Mazumdar.
Annual Review of Nuclear and Particle Science (2010)
Spin Entanglement Witness for Quantum Gravity
Sougato Bose;Anupam Mazumdar;Gavin W. Morley;Hendrik Ulbricht.
Physical Review Letters (2017)
Gauge-invariant inflaton in the minimal supersymmetric standard model.
Rouzbeh Allahverdi;Rouzbeh Allahverdi;Kari Enqvist;Juan Garcia-Bellido;Anupam Mazumdar.
Physical Review Letters (2006)
Black holes, gravitational waves and fundamental physics: a roadmap.
Leor Barack;Vitor Cardoso;Samaya Nissanke;Thomas P. Sotiriou.
arXiv: General Relativity and Quantum Cosmology (2018)
Black holes, gravitational waves and fundamental physics: a roadmap
Leor Barack;Vitor Cardoso;Vitor Cardoso;Samaya Nissanke;Samaya Nissanke;Samaya Nissanke;Thomas P. Sotiriou.
Classical and Quantum Gravity (2019)
Particle physics models of inflation and curvaton scenarios
Anupam Mazumdar;Anupam Mazumdar;Jonathan Rocher.
Physics Reports (2011)
Cosmological consequences of MSSM flat directions
Kari Enqvist;Kari Enqvist;Anupam Mazumdar.
Physics Reports (2003)
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