Misao Sasaki focuses on Classical mechanics, Particle physics, Mathematical physics, Inflation and Electron–positron annihilation. His Classical mechanics study integrates concerns from other disciplines, such as Cosmology, Cosmological perturbation theory, Rotating black hole and De Sitter universe. His Mathematical physics research is multidisciplinary, relying on both De Sitter space and Curvature perturbation.
His research in Inflation tackles topics such as Astrophysics which are related to areas like Cosmic microwave background and Astronomy. His Electron–positron annihilation study contributes to a more complete understanding of Nuclear physics. His Brane research also works with subjects such as
His main research concerns Particle physics, Nuclear physics, Electron–positron annihilation, Classical mechanics and Mathematical physics. His Nuclear physics study combines topics in areas such as Quantum chromodynamics and Photon. The Electron–positron annihilation study which covers Standard Model that intersects with Higgs boson.
His Classical mechanics research incorporates elements of Inflation, Theoretical physics, Perturbation and Black hole. His research in Theoretical physics intersects with topics in Cosmology and Gravitation. His studies in Mathematical physics integrate themes in fields like Spacetime, De Sitter universe and Scalar.
His primary areas of investigation include Inflation, Mathematical physics, Astrophysics, Theoretical physics and Classical mechanics. His work on Instanton, General relativity and Gauge theory as part of general Mathematical physics research is frequently linked to Formalism, bridging the gap between disciplines. His work investigates the relationship between Astrophysics and topics such as Cosmic microwave background that intersect with problems in Cosmology, Spectral density and Particle physics.
The study incorporates disciplines such as Hawking, Black hole, Observable, Gravitation and Black hole information paradox in addition to Theoretical physics. As a part of the same scientific family, he mostly works in the field of Gravitation, focusing on Scalar field and, on occasion, Einstein. In Classical mechanics, he works on issues like False vacuum, which are connected to Event horizon and Singularity.
Misao Sasaki mainly investigates Inflation, Non-Gaussianity, Theoretical physics, Mathematical physics and Gravitational wave. Misao Sasaki has included themes like Field, Primordial black hole, Curvature, Universe and Hubble volume in his Inflation study. His research on Non-Gaussianity also deals with topics like
His Theoretical physics study combines topics from a wide range of disciplines, such as Cosmology, Galaxy, Massive gravity and Observable. His Cosmology research integrates issues from Hamiltonian lattice gauge theory, Gauge theory and Cosmological constant. His Mathematical physics study integrates concerns from other disciplines, such as Function, Cosmological constant problem and White hole.
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Cosmological Perturbation Theory
Hideo Kodama;Misao Sasaki.
Progress of Theoretical Physics Supplement (1984)
The Einstein equations on the 3-brane world
Tetsuya Shiromizu;Tetsuya Shiromizu;Kei Ichi Maeda;Kei Ichi Maeda;Misao Sasaki;Misao Sasaki;Misao Sasaki.
Physical Review D (2000)
A General Analytic Formula for the Spectral Index of the Density Perturbations Produced during Inflation.
Misao Sasaki;Ewan D. Stewart.
Progress of Theoretical Physics (1996)
Discovery of a cool planet of 5.5 Earth masses through gravitational microlensing
J.-P. Beaulieu;D. P. Bennett;P. Fouqué;A. Williams.
A general proof of the conservation of the curvature perturbation
David H. Lyth;Karim A. Malik;Misao Sasaki.
Journal of Cosmology and Astroparticle Physics (2005)
Gauss-Bonnet dark energy
Shin'ichi Nojiri;Sergei D. Odintsov;Misao Sasaki.
Physical Review D (2005)
Primordial Black Hole Scenario for the Gravitational-Wave Event GW150914
Misao Sasaki;Teruaki Suyama;Takahiro Tanaka;Takahiro Tanaka;Shuichiro Yokoyama.
Physical Review Letters (2016)
Large Scale Quantum Fluctuations in the Inflationary Universe
Progress of Theoretical Physics (1986)
Measurement of the $Z^0$ line shape parameters and the electroweak couplings of charged leptons
G. Alexander;J. Allison;P. P. Allport;K. J. Anderson.
European Physical Journal C (1991)
The Japanese space gravitational wave antenna DECIGO
Seiji Kawamura;Hiroo Kunimori;Mizuhiko Hosokawa;Ryuichi Fujita.
Classical and Quantum Gravity (2011)
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