3 edition of **Non-gaussian microwave background fluctuations from nonlinear gravitational effects** found in the catalog.

Non-gaussian microwave background fluctuations from nonlinear gravitational effects

- 334 Want to read
- 16 Currently reading

Published
**1991**
by Fermi National Accelerator Laboratory, National Aeronautics and Space Administration, National Technical Information Service, distributor in [Batavia, Ill.], [Washington, D.C, [Springfield, Va
.

Written in English

- Cosmic background radiation.,
- Fluctuations (Physics)

**Edition Notes**

Statement | D.S. Salopek. |

Series | NASA contractor report -- NASA CR-188699., FERMILAB-Pub -- 91/161-A., Fermilab pub -- 91/161-A. |

Contributions | Fermi National Accelerator Laboratory., United States. National Aeronautics and Space Administration. |

The Physical Object | |
---|---|

Format | Microform |

Pagination | 1 v. |

ID Numbers | |

Open Library | OL15390660M |

There is a broad class of astrophysical sources that produce detectable, transient, gravitational waves. Some searches for transient gravitational waves are tailored to known features of these sources. Other searches make few assumptions about the sources. Typically Author: Rahul Biswas, Patrick R. Brady, Jordi Burguet-Castell, K. C. Cannon, Jessica Clayton, Alexander Diet. We then present several astrophysical applications of the halo model: these include models of the spatial distribution of galaxies, the nonlinear velocity, momentum and pressure fields, descriptions of weak gravitational lensing, and estimates of secondary contributions to temperature fluctuations in the cosmic microwave background.

Ann. Probab. Vol Number 3 (), Gaussian and non-Gaussian fluctuations for mesoscopic linear statistics in determinantal processesCited by: 18 D. Novikov et al.: On non–Gaussianity in the cosmic microwave background tuations. For instance, a conﬁrmation that the ﬂuctuations of the CMB are Gaussian would leave practically no alternative to standard inﬂation, since it would deﬁnitely rule out most of the models that predict non–Gaussian ﬂuctuations and are.

by Thomas Buchert, Martin J. France & Frank Steiner. This challenging question touches on the initial conditions of the primordial Universe, on modeling assumptions, and statistical ensembles generating the Cosmic Microwave Background. Our CQG paper explores model-independent approaches to these challenges. We observe only a single Universe, the one we live in. A new work by our own Prof. Christian Beck, in collaboration with colleagues from other institutions in Germany and Japan, has recently been published in Nature this contribution the researchers study the time series fluctuations in power grids which result from several factors including dynamically changing demands, energy trading or an increasing share of renewable power feed-in.

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Get this from a library. Non-gaussian microwave background fluctuations from nonlinear gravitational effects. [David S Salopek; Fermi National Accelerator Laboratory.; United States. National Aeronautics and Space Administration.].

Abstract: We present theoretical and observational studies of non-Gaussian fluctuations in CMB, by using the angular bispectrum and trispectrum. We predict the primary angular bispectrum from inflation, and forecast how well we can measure the primordial non-Gaussian signal.

In addition to that, secondary anisotropy sources in the low-redshift universe also produce non-Gaussianity, so do Cited by: Weak gravitational lensing has several important effects on the cosmic microwave background (CMB): it changes the CMB power spectra, induces non-Gaussianities, and generates a B-mode polarization.

We describe some simple geometric properties of microwave background temperature anisotropies whose expectation values can be derived in cases where the random field of temperature fluctuations is not necessarily a gaussian random field.

We explain how these properties may be useful for discriminating between gaussian and non-gaussian : P. Coles. Analysis of non-Gaussian cosmic microwave background maps based on the N-pdf. for the relation between the temperature fluctuations and the gravitational potential at the Sachs–Wolfe regime.

Let us remark that, of course, this model do not pretend to incorporate all the gravitational (like lensing) and non-gravitational effects, due to Cited by: A Semi-Parametric Approach to the Detection of Non-Gaussian Gravitational Wave Stochastic Backgrounds Lionel Martellini1,2, and Tania Regimbau2 1EDHEC-Risk Institute, Promenade des Anglais, BPNice Cedex 3, France resulting in the formation of a non-Gaussian background.

It has also been shown that the background from cosmic. @article{osti_, title = {Will COBE challenge the inflationary paradigm - Cosmic microwave background anisotropies versus large-scale streaming motions revisited}, author = {Gorski, K M}, abstractNote = {The relation between cosmic microwave background (CMB) anisotropies and large-scale galaxy streaming motions is examined within the framework of inflationary cosmology.

Non‐gaussianity Versus Nonlinearity of Cosmological Perturbations Article in Annals of the New York Academy of Sciences (1) - 69 June with 36 Reads How we measure 'reads'Author: Licia Verde. The presence of non--Gaussian features in the Cosmic Microwave Background (CMB) radiation maps represents one of the most long--awaited clues in the search for.

The cosmic microwave background radiation is an emission of uniform, black body thermal energy coming from all parts of the sky. The radiation is isotropic to roughly one part inthe root mean square variations are only 18 µK, after subtracting out a dipole anisotropy from the Doppler shift of the background radiation.

The latter is caused by the peculiar velocity of the Sun relative. Non-Gaussian Microwave Background Fluctuations from Nonlinear Gravitational Effects Symmetry Operators for Maxwell's Equations on Curved Space-Time Separation of Variables and Constants of Motion for Relativistic Wave Equations on Curved Space-Time.

IMPROVED SIMULATION OF NON-GAUSSIAN TEMPERATURE AND POLARIZATION COSMIC MICROWAVE BACKGROUND MAPS Franz Elsner1 and Benjamin D.

Wandelt2,3 4 1 Max-Planck-Institut fur Astrophysik, Karl-Schwarzschild-Straße 1, D. First let us discuss the temperature power spectrum. The temperature multipole moments due to an individual gravitational wave of wavenumber k observed at a conformal time τ 0 are (27) Δ Tl = (l + 2).

(l-2). ∫ 0 τ 0 d τ-h ˙ e-κ + g Ψ j l (x) x 2, with x = k (τ 0 −τ).The second of the sourcing terms is localised to the surface of last scattering (SLS) by the visibility function; as Cited by: @article{osti_, title = {PHYSICS OF NON-GAUSSIAN FIELDS AND THE COSMOLOGICAL GENUS STATISTIC}, author = {James, J.

Berian, E-mail: [email protected]}, abstractNote = {We report a technique to calculate the impact of distinct physical processes inducing non-Gaussianity on the cosmological density field.

A natural decomposition of the cosmic genus statistic into an orthogonal. J.P. Ostriker, E.T. Vishniac, Generation of microwave background fluctuations from nonlinear perturbations at the era of galaxy formation, Astrophys.

() LL [77] by: 1. We review in a pedagogical way the present status of the impact of non-Gaussianity (NG) on the cosmic microwave background (CMB) anisotropies.

We first show how to set the initial conditions at second order for the CMB anisotropies when some primordial NG is present. However, there are many sources of NG in CMB anisotropies, beyond the primordial one, which can contaminate the primordial by: Likelihood-ratio ranking of gravitational-wave candidates in a non-Gaussian background Rahul Biswas,1 Patrick R.

Brady,2 Jordi Burguet-Castell,3 Kipp Cannon,4 Jessica Clayton,2 Alexander Dietz,5 Nickolas Fotopoulos,6 Lisa M. Goggin,7 Drew Keppel,8,9 Chris Pankow,2 Larry R. Price,6 and Ruslan Vaulin10 1University of Texas-Brownsville, Brownsville, TexasUSA.

The gravitational evolution of primordial fluctuations introduces non-Gaussian correlations in the distribution of matter with a non-Gaussianity parameter f NL 4 of order unity, dwarfing those predicted by SFSR inflation (f NL ≈ 10 −2).

Current limits constrain f NL to be. Motivated by the fact that cosmological perturbations of inflationary quantum origin were born Gaussian, the search for non-Gaussianities in the cosmic microwave background (CMB) anisotropies is considered as the privileged probe of nonlinear physics in the early universe.

Cosmic strings are active sources of gravitational perturbations and incessantly produce non-Gaussian distortions in the by: This section alone justifies having the book on a library shelf.

An adjacent section on the data processing used to extract the maps of the cosmic microwave background for the raw radiometric satellite data is extraordinary and will be valued by readers wishing to understand this important area of by: 4.

The source of fluctuations to input into the cosmic structure formation problem is likely to be found in early universe physics.

We want to measure the CMB [and large-scale structure (LSS)] response to these initial fluctuations. The goal is the lofty one of peering into the physical mechanism by. Then we describe the non-Gaussian nature of density fluctuations generated by the nonlinear gravitational evolution of the primordial Gaussian field in Section 3.

Next we discuss the spatial biasing of galaxies relative to the underlying dark matter distribution in Section 4. Our understanding of biasing is still far from complete, and its Cited by: Munshi D, Souradeep T, Starobinsky AA () Skewness of cosmic microwave background temperature fluctuations due to nonlinear gravitational instability.

ApJ doi: / arXiv:astro-ph/ Google ScholarAuthor: Guido Walter Pettinari.