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I. D. Novikov
Researcher at Russian Academy of Sciences
Publications - 263
Citations - 83503
I. D. Novikov is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Planck & Cosmic microwave background. The author has an hindex of 119, co-authored 260 publications receiving 78911 citations. Previous affiliations of I. D. Novikov include University of Copenhagen & Niels Bohr Institute.
Papers
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Cluster Analysis and Global Topology of CMB Anisotropy and Polarization
TL;DR: In this article, the authors developed the theory of clustering of peaks in a Gaussian random field of the cosmic microwave background polarization and simulated 100 × 100 sky maps of anisotropy and polarization expected from a standard CDM cosmological model with 6' resolution.
Posted Content
First Release of Gauss-Legendre Sky Pixelization (GLESP) software package for CMB analysis
A. G. Doroshkevich,Pavel Naselsky,Pavel Naselsky,O. V. Verkhodanov,Dmitry Novikov,Viktor Igorevich Turchaninov,I. D. Novikov,I. D. Novikov,P. R. Christensen,Lung-Yih Chiang +9 more
TL;DR: The main features and functions for processing and manipulation of sky signals are presented and features for CMB polarization is underway and to be incorporated in a future release.
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Spectrum of relativistic radiation from electric charges and dipoles as they fall freely into a black hole
TL;DR: In this article, a general method has been developed to find the radiated multipole electromagnetic fields for multipoles (including higher-order multipoles, quadrupoles, etc.) falling freely into a Schwarzschild black hole.
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Scalar hyperbolic equation with gr-type nonlinearity
TL;DR: In this paper, a scalar hyperbolic partial differential equation, with nonlinear terms similar to those of the equations of general relativity, was studied and two classes of second-order accurate central-difference schemes, CFLN and MOL, were proposed for numerical integration of this equation.
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Spectrum of the radiation from electric charges and from dipoles which free infall into a black hole
TL;DR: In this paper, the free fall of electric charges and dipoles, radial and freely falling into the Schwarzschild black hole event horizon, was considered and the spectrum of electromagnetic radiation power for these multipoles (monopole and dipole) was found.