Implications of the COBE-DMR and South-Pole Experiments on CMB Anisotropies to Inflationary Cosmology : Astrophysics and Relativity
スポンサーリンク
概要
- 論文の詳細を見る
We discuss implications of the discovery of the cosmic microwave anisotropy at 10° scale by COBE-DMR and the null result at 1° scale from the South-Pole experiment to inflationary universe models. In doing so, we derive an approximate analytic formula which relates the anisotropies at 10° and at 1° without a heavy numerical computation. The formula, when tested against the known numerical results, turns out to reproduce those results quite accurately, and gives us a clear insight into cause and effect of the intermediate and large angular CMB anisotropies. Then applying the formula to models with adiabatic density perturbations based on the inflationary universe scenario, we find that the only model compatible with the claimed observational data is either (i) a power-law inflation model which predicts the power spectrum of density fluctuations with the power-law index n≲0.8, in which case the gravitational wave contribution to the CMB anisotropies on θ>5° FWHM is significant, or (ii) a natural inflation model with n≲0.7, in which case the gravitational wave contribution is negligible on all angular scales. In both of these cases, if the universe is dominated by cold dark matter, the resulting bias factor turns out to be b≳2, i.e., a relatively large bias is unavoidable.
- 理論物理学刊行会の論文
- 1993-06-25
著者
-
Sasaki M
Osaka Univ. Toyonaka Jpn
-
Sasaki Misao
Department Of Earth And Space Science Graduate School Of Science Osaka University
-
SASAKI Misao
Department of Earth and Space Science, Graduate School of Science Osaka University
-
SASAKI Misao
Research Institute for Fundamental Physics, Kyoto University
関連論文
- 余剰次元を考慮した宇宙論(素粒子論と宇宙論,21世紀を迎える理論天文学の総括と展望,研究会報告)
- Kaluza-Klein Braneworld Cosmology with Static Internal Dimensions(Astrophysics and Relativity)
- Born-Again Braneworld
- Large Angle Anisotropy of the Cosmic Microwave Background in an Open Universe : Astrophysics and Relativity
- Stochastic Dynamics of New Inflation : Astrophysics and Relativity
- A New Analytical Method for Self-Force Regularization. I : Charged Scalar Particles in Schwarzschild Spacetime(Astrophysics and Relativity)
- Covariant Self-Force Regularization of a Particle Orbiting a Schwarzschild Black Hole : Mode Decomposition Regularization(Astrophysics and Relativity)
- Self-Force on a Scalar Charge in Circular Orbit around a Schwarzschild Black Hole
- Quantum Radion on de Sitter Branes
- Gravitational Waves by a Particle in Circular Orbits around a Schwarzschild Black Hole : 5.5 Post-Newtonian Formula : Astrophysics and Relativity
- Gravitational Wave Induced by a Particle Orbiting around a Schwarzschild Black Hole : Astrophysics and Relativity
- A General Analytic Formula for the Spectral Index of the Density Perturbations Produced during Inflation
- An Improved Template Space for Gravitational Ringing of Black Holes(Astrophysics and Relativity)
- Creation of Wormholes by First Order Phase Transition of a Vacuum in the Early Universe
- Evolution of Gauge-Invariant Cosmological Density Perturbations through Decoupling Era : Astrophysics and Relativity
- Radion on the de Sitter Brane
- Conversion of Gravitational Waves into Electromagnetic Waves by a Moving Charge
- The Gravitational Reaction Force on a Particle in the Schwarzschild Background
- False Vacuum Decay with Gravity : Negative Mode Problem : Astrophysics and Relativity
- Purely Quantum Derivation of Density Fluctuations in the Inflationary Universe : Astrophysics and Relativity
- Chapter 1 Black Hole Perturbation
- The Wave Function of a Collapsing Dust Sphere inside the Black Hole Horizon
- Anisotropies in Luminosity Distance : Astrophysics and Relativity
- Cosmological Perturbation Theory
- Probability Distribution of Primordial Angular Momentum and Formation of Massive Black Holes : Astrophysics and Relativity
- General Relativistic Collapse of an Axially Symmetric Star. I : The Formulation and the Initial Value Equations
- A Method of Determining Apparent Horizons in [(2+1)+1]-Formalism of the Einstein Equations
- An Analytic Solution of Initial Data for Slowly Rotating Dust Sphere under Maximal Slicing Condition
- A New Formalism of the Einstein Equations for Relativisitic Rotating Systems
- Implications of the COBE-DMR and South-Pole Experiments on CMB Anisotropies to Inflationary Cosmology : Astrophysics and Relativity
- Post-Newtonian Expansion of Gravitational Waves from a Compact Star Orbiting a Rotating Black Hole in Brans-Dicke Theory : Circular Orbit Case : Astrophysics and Relativity
- Entropy Production in the Inflationary Universe : Astrophysics and Relativity
- Post-Newtonian Expansion of the Ingoing-Wave Regge-Wheeler Function : Astrophysics and Relativity
- Braneworld Inflation Driven by Dynamics of a Bulk Scalar Field
- Quantum State during and after Nucleation of an O(4)-Symmetric Bubble : Astrophysics and Relativity
- The Spectrum of Gravitational Wave Perturbations in the One-Bubble Open Inflationary Universe : Astrophysics and Relativity
- Post-Newtonian Expansion of Gravitational Waves from a Particle in Circular Orbit around a Schwarzschild Black Hole : Astrophysics and Relativity
- Braneworld Inflation Driven by Dynamics of a Bulk scalar field
- The Radiation Reaction Effects in the Solutions of the Perturbed Einstein Equations
- Cosmological Gravitational Lens Equation : Its Validity and Limitation
- Super-Horizon Scale Dynamics of Multi-Scalar Inflation
- Destabilizing Tachyonic Vacua at or above the BF Bound(Astrophysics and Cosmology)
- A New Analytical Method for Self-Force Regularization.II : Testing the Efficiency for Circular Orbits(Astrophysics and Relativity)
- Chapter 7 Gravitational Radiation Reaction
- Preface
- Questions about Gravitational Instability of Axion Density Fluctuations in an Axion Dominated Universe
- Gauge-Invariant Scalar Perturbations in the New Inflationary Universe
- Large Scale Quantum Fluctuations in the Inflationary Universe : Astrophysics and Relativity
- Newton's Law on an Einstein "Gauss-Bonnet" Brane(Astrophysics and Relativity)
- Linearized Gravity on the de Sitter Brane in the Einstein Gauss-Bonnet Theory(Astrophysics and Relativity)