Your search keyword '"Hyerim Noh"' showing total 3 results

1. Newtonian versus relativistic cosmology

Author

Hyerim Noh and Jai-chan Hwang

Subjects

Physics, General Relativity and Quantum Cosmology, symbols.namesake, Nonlinear system, Classical mechanics, Quantum cosmology, Strong gravity, Einstein field equations, symbols, Non-standard cosmology, Higher-dimensional Einstein gravity, Einstein, Cosmology

Abstract

It is known that the Newtonian cosmology (both for the Friedmann background and its linear perturbations) is not purely based on Newton’s gravity, but a guided one by Einstein’s theory. The action‐at‐a‐distance nature of Newton’s gravity requires further verification from Einstein’s theory for its use in the large‐scale nonlinear simulation. We provide its domain of validity in cosmology by investigating the weakly and fully nonlinear regimes in relativistic cosmology based on Einstein’s gravity. In the weakly nonlinear approach the Einstein guided Newtonian cosmology is exactly valid to the second order in perturbation and pure relativistic correction terms start appearing from the third order, and are small in the large‐scale near horizon. We also provide fully nonlinear relativistic correction terms in the post‐Newtonian approach in cosmological situation. Perturbation approach is valid in weakly nonlinear regime but is applicable in strong gravity (including near and beyond horizon), whereas post‐Newtonian approach is valid in fully nonlinear regime but is applicable in the weak gravity (thus far inside horizon). These two approaches provide complementary relativistic correction terms, thus showing the limit and validity of the Newtonian approach in cosmology.

Published

2006

2. CMBR constraints on an inflation model with nonminimal scalar field

Author

Jai-chan Hwang and Hyerim Noh

Subjects

Big Bang, Inflation (cosmology), Physics, General Relativity and Quantum Cosmology, Particle physics, Theoretical physics, Structure formation, Cosmic microwave background, Scalar (mathematics), Astrophysics::Cosmology and Extragalactic Astrophysics, Inflaton, Scalar field, Cosmology

Abstract

We present the power spectra of the scalar- and tensor-type structures generated in an inflation model based on the nonminimally coupled scalar field with a self coupling. By comparing the contributions of these structures to the anisotropy of the cosmic microwave background radiation with the four year COBE DMR data we derive strong constraints on model parameters and the inflation model.

Published

2001

3. Conserved evolutions of the perturbed Friedmann world model

Author

Hyerim Noh and Jai-chan Hwang

Subjects

Physics, General Relativity and Quantum Cosmology, Conservation law, Angular momentum, Classical mechanics, Amplitude, Gravitational wave, Isotropy, Perturbation (astronomy), Curvature, Conserved quantity

Abstract

The evolutions of linear structures in a spatially homogeneous and isotropic world model are characterized by some conserved quantities. The amplitude of gravitational wave is conserved in the super-horizon scale, the perturbed three-space curvature in the comoving gauge is conserved in the super-sound-horizon scale, and the angular momentum of rotational perturbation is generally conserved.

Published

2001