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Найдено 15 публикаций
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Статья
Siparov S., Samodurov V., Laptev G. Astronomy and Astrophysics. 2015. Vol. 574. No. L2. P. 1-4.
Добавлено: 4 марта 2015
Статья
Sobolevski A., Matarrese S., Mohayaee R. et al. Astronomy and Astrophysics. 2003. Vol. 406. P. 393-401.
Добавлено: 2 января 2012
Статья
Накаряков В., Inglis A., Bakunina I. A. et al. Astronomy and Astrophysics. 2010. Vol. 513. P. 27-34.
Добавлено: 25 января 2010
Статья
Litvinenko G. V., Lecacheux A., Rucker H. O. et al. Astronomy and Astrophysics. 2009. Vol. 493. P. 651-660.
Добавлено: 12 марта 2015
Статья
Shapoval A., Le Mouël J., Shnirman M. et al. Astronomy and Astrophysics. 2018. Vol. 618. P. A183-1-A183-13.
Добавлено: 26 октября 2018
Статья
Petrukhin N., Ruderman M. S. Astronomy and Astrophysics. 2018. Vol. 620. No. A44. P. 1-9.
Добавлено: 7 декабря 2018
Статья
Ruderman M. S., Petrukhin N. Astronomy and Astrophysics. 2017. Vol. 600. No. A122. P. 1-11.
Добавлено: 10 мая 2017
Статья
Burenin R.A. Astronomy and Astrophysics. 2016. Vol. 594. P. 1-38.

The European Space Agency's Planck satellite, which is dedicated to studying the early Universe and its subsequent evolution, was launched on 14 May 2009. It scanned the microwave and submillimetre sky continuously between 12 August 2009 and 23 October 2013. In February 2015, ESA and the Planck Collaboration released the second set of cosmology products based ondata from the entire Planck mission, including both temperature and polarization, along with a set of scientific and technical papers and a web-based explanatory supplement. This paper gives an overview of the main characteristics of the data and the data products in the release, as well as the associated cosmological and astrophysical science results and papers. The data products include maps of the cosmic microwave background (CMB), the thermal Sunyaev-Zeldovich effect, diffuse foregrounds in temperature and polarization, catalogues of compact Galactic and extragalactic sources (including separate catalogues of Sunyaev-Zeldovich clusters and Galactic cold clumps), and extensive simulations of signals and noise used in assessing uncertainties and the performance of the analysis methods. The likelihood code used to assess cosmological models against the Planck data is described, along with a CMB lensing likelihood. Scientific results include cosmological parameters derived from CMB power spectra, gravitational lensing, and cluster counts, as well as constraints on inflation, non-Gaussianity, primordial magnetic fields, dark energy, and modified gravity, and new results on low-frequency Galactic foregrounds.

Добавлено: 27 января 2018
Статья
Burenin R.A. Astronomy and Astrophysics. 2016. Vol. 594. P. A27.

We present the all-sky Planck catalogue of Sunyaev-Zeldovich (SZ) sources detected from the 29 month full-mission data. The catalogue (PSZ2) is the largest SZ-selected sample of galaxy clusters yet produced and the deepest systematic all-sky surveyof galaxy clusters. It contains 1653 detections, of which 1203 are confirmed clusters with identified counterparts in external data sets, and is the first SZ-selected cluster survey containing >103 confirmed clusters. We present a detailed analysis of the survey selection function in terms of its completeness and statistical reliability, placing a lower limit of 83% on the purity. Using simulations, we find that the estimates of the SZ strength parameter Y5R500are robust to pressure-profile variation and beam systematics, but accurate conversion to Y500 requires the use of prior information on the cluster extent. We describe the multi-wavelength search for counterparts in ancillary data, which makes use of radio, microwave, infra-red, optical, and X-ray data sets, and which places emphasis on the robustness of the counterpart match. We discuss the physical properties of the new sample and identify a population of low-redshift X-ray under-luminous clusters revealed by SZ selection. These objects appear in optical and SZ surveys with consistent properties for their mass, but are almost absent from ROSAT X-ray selected samples.

Добавлено: 27 января 2018
Статья
Burenin R.A. Astronomy and Astrophysics. 2016. Vol. 596. P. 1-12.

Although infrared (IR) overall dust emission from clusters of galaxies has been statistically detected using data from the Infrared Astronomical Satellite (IRAS), it has not been possible to sample the spectral energy distribution (SED) of this emission over its peak, and thus to break the degeneracy between dust temperature and mass. By complementing the IRAS spectral coverage with Planck satellite data from 100 to 857 GHz, we provide new constraints on the IR spectrum of thermal dust emission in clusters of galaxies. We achieve this by using a stacking approach for a sample of several hundred objects from the Planck cluster sample. This procedure averages out fluctuations from the IR sky, allowing us to reach a significant detection of the faint cluster contribution. We also use the large frequency range probed by Planck, together with component-separation techniques, to remove the contamination from both cosmic microwave background anisotropies and the thermal Sunyaev-Zeldovich effect (tSZ) signal, which dominate at ν ≤ 353 GHz. By excluding dominant spurious signals or systematic effects, averaged detections are reported at frequencies 353 GHz ≤ ν ≤ 5000 GHz. We confirm the presence of dust in clusters of galaxies at low and intermediate redshifts, yielding an SED with a shape similar to that of the Milky Way. Planck's resolution does not allow us to investigate the detailed spatial distribution of this emission (e.g. whether it comes from intergalactic dust or simply the dust content of the cluster galaxies), but the radial distribution of the emission appears to follow that of the stacked SZ signal, and thus the extent of the clusters. The recovered SED allows us to constrain the dust mass responsible for the signal and its temperature.

Добавлено: 27 января 2018
Статья
R. Burenin, Planck C. Astronomy and Astrophysics. 2016. Vol. 586. P. A139.

We present the results of approximately three years of observations of Planck Sunyaev-Zeldovich (SZ) sources with telescopes at the Canary Islands observatories as part of the general optical follow-up programme undertaken by the Planck Collaboration. In total, 78 SZ sources are discussed. Deep-imaging observations were obtained for most of these sources; spectroscopic observations in either in long-slit or multi-object modes were obtained for many. We effectively used 37.5 clear nights. We found optical counterparts for 73 of the 78 candidates. This sample includes 53 spectroscopic redshift determinations, 20 of them obtained with a multi-object spectroscopic mode. The sample contains new redshifts for 27 Planck clusters that were not included in the first Planck SZ source catalogue (PSZ1).

Добавлено: 28 января 2018
Статья
Lutovinov A. Astronomy and Astrophysics. 2016. Vol. 593. P. A16/1-A16/7.
Добавлено: 16 января 2018
Статья
Lutovinov A. Astronomy and Astrophysics. 2017. Vol. 605. P. А39/1-А39/8.
Добавлено: 16 января 2018
Статья
de Ugarte Postigo A., Burenin R.A. Astronomy and Astrophysics. 2018. Vol. 620. P. A190.
Добавлено: 15 января 2019
Статья
Panchenko M., Rosker S., Rucker H. O. et al. Astronomy and Astrophysics. 2018. Vol. 610. No. A69. P. 1-9.
Добавлено: 15 ноября 2018