Your search keyword '"Vinyajkin, E."' showing total 10 results

1. Secular Decrease and Random Variations of the Flux Density of Cas a at 927, 290, 151.5, and 38 MHZ from Long-Term Measurements

Author

Vinyajkin, E. N.

Published

1997

2. The Secular Decrease of the Crab Nebula at 927 and 151.5 MHz

Author

Vinyajkin, E. N.

Subjects

Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics

Abstract

Long-term measurements have been carried out of the Crab Nebula radio emission flux density relative to Orion A at 927 MHz and relative to Cygnus A and Virgo A at 151.5 MHz. As a result the mean rates have been found of the secular change of the Crab Nebula radio emission flux density: $d_m (927\hbox{MHz})=-(0.18\pm0.10)$% year$^{-1}$ (over the period 1977--2000), $d_m (151.5\hbox{MHz})=- (0.32\pm0.08)$% year$^{-1}$ (over the period 1980--2003)., 2 pages, 2 figures, poster report at Supernovae as Cosmological Lighthouses, 16-19 June 2004, Padua, Italy

Published

2005

3. Secular Decrease and Random Variations of Cassiopeia A at 151.5 and 927 MHz

Author

Vinyajkin, E. N. and Razin, V. A.

Subjects

Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics

Abstract

Long-term measurements of the radio flux density of Cassiopeia A relative to Cygnus A have been carried out at 927 and 151.5 MHz. It was found the following mean secular decrease rates of the radio emission of Cassiopeia A: $(0.72\pm 0.03)% \hbox{year}^{-1}$ at 927 MHz (for the period 1977--2002) and $(0.88\pm 0.09)% \hbox{year}^{-1}$ at 151.5 MHz (for the period 1980--2002). These values of the secular decrease rate obtained over the period of the last 25 years are substantially less than those of Baars et al. (1977). This indicates to the slowing down of Cassiopeia A radio emission secular decrease. In addition to this large scale time variation of Cassiopeia A flux density the measurements have also shown a small scale (a few years) time variations over the smooth secular decrease., 6 pages, 4 figures, poster report at the IAU Colloquium 192, Supernovae (10 Years of SN1993J), 22-26 April 2003, Valencia-Spain; eds. J.M.Marcaide, K.W.Weiler

Published

2004

4. Low frequency polarization observations of the galactic radio emission.

Author

Vinyajkin, E. N. and Razin, V. A.

Subjects

*SOLAR radio emission, *POWER spectra, *FARADAY effect

Abstract

Multifrequency polarization observations of a number of regions of the Galaxy in the frequency range 200-1250 MHz have been carried out. The area of enhanced linear polarization at meter wavelengths around α[sub 1950]=4[sup h]30[sup m], δ[sub 1950]=61° (l=146°47[sup ′],b=9°03[sup ′]) reveals a nonmonotonic, oscillating spectrum of the polarized brightness temperature. On the contrary, the region of the North Celestial Pole (l=123°,b=27°24[sup ′]) has practically monotonic spectrum. The possible reasons for this difference are discussed. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2002

5. Observations of linear polarization of background galactic radio emission in selected directions at 8.3 GHz.

Author

Vinyajkin, E. N., Carretti, E., Cortiglioni, S., and Poppi, S.

Subjects

*SOLAR radio emission, *POLARIZATION (Nuclear physics)

Abstract

Polarization observations of the Galactic radio emission at 8.3 GHz were made by the 32-m Medicina (Italy) radio telescope in four pixels (HPBW=4.[sup ′]8). A method of tracking around the upper culmination was used in order to use the rotation of the parallactic angle for detecting the weak linearly polarized Galactic radio emission against the background of relatively strong and variable spurious and instrumental polarization. The well known source 3C 286 was used as calibrator. As a result the brightness temperatures of linearly polarized component of the Galactic radio emission and positions angles were measured for all pixels. Comparison was made for the pixels in the first Galactic quadrant with Duncan et al. 2695 MHz polarization measurements and as a result spectral indexes and rotation measures were determined. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2002

6. The Moon as a calibrator of linearly polarized radio emission for the SPOrt project.

Author

Poppi, S., Carretti, E., Cortiglioni, S., Krotikov, V. D., and Vinyajkin, E. N.

Subjects

POLARIZATION (Nuclear physics), RADIATIVE transfer

Abstract

The Moon could be the best external calibrator for the Sky Polarization Observatory (SPOrt) experiment, providing the highest polarized signal at large angular scales (>=7 °) in the 22–90 GHz range. Maps of linearly polarized lunar radio emission have been realized at 8.3 GHz with the 32-m radiotelescope of IRA-CNR (Medicina-Italy) at full Moon, new Moon, first and last quarter. We derived estimates of spectral and time properties of both the intensity and the linear polarization of the Moon radio emission, taking into account the radiative transfer of heat in lunar soil and the surface roughness. A comparison between predictions of the theory and observations is presented. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2002

7. BaR-SPOrt experiment: measuring the CMBP E-mode power spectrum from Dome C

Author

M. Baralis, S. Cecchini, E. Carretti, Massimo Gervasi, M. V. Sazhin, Giuseppe Virone, L. P. L. Colombo, C. Sbarra, Jader Monari, M. De Petris, M. Ramponi, Stefano Cortiglioni, Sergio Poppi, Luciano Casarini, Gianni Bernardi, P. de Bernardis, Silvia Masi, O. A. Peverini, V. Natale, M. Poloni, G. Sironi, Silvio A. Bonometto, R. Fabbri, Renzo Nesti, A. Boscaleri, G. Ventura, R. Tascone, Luciano Nicastro, Claudio Macculi, M. Zannoni, E. N. Vinyajkin, Carretti, E, Cortiglioni, S, Bernardi, G, Casarini, L, Cecchini, S, Macculi, C, Ramponi, M, Sbarra, C, Ventura, G, Monari, J, Poloni, M, Poppi, S, Baralis, M, Peverini, O, Tascone, R, Virone, G, Zannoni, M, Bonometto, S, Colombo, L, Gervasi, M, Sironi, G, Fabbri, R, Natale, V, Nesti, R, Nicastro, L, de Bernardis, P, Masi, S, de Petris, M, Boscaleri, A, Sazhin, M, and Vinyajkin, E

Subjects

Physics, Current configuration, media_common.quotation_subject, Cosmic microwave background, Astrophysics::Instrumentation and Methods for Astrophysics, General Engineering, Spectral density, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Low frequency, Polarization (waves), Dust emissions, Cosmology, Synchrotron emission, Space and Planetary Science, Sky, Cosmic Microwave Background, POLARIZATION, CMB, COSMOLOGY, Multipole expansion, Astrophysics::Galaxy Astrophysics, media_common

Abstract

The BaR-SPOrt experiment is designed to measure the E -mode power spectrum of the Cosmic Microwave Background Polarization (CMBP) in the multipole range 50 l < 1000. In the current configuration at 32 GHz it can explore up to l = 400. Recent low frequency observations of the target region show that the synchrotron emission should not contamine the CMBP already at 32 GHz. A 6-month observation of a 6° × 6° sky area during the polar night, in ideal environmental conditions, will allow the Italian-French collaboration to both measure the E –mode power spectrum with appropriate sensitivity and perform important tests of the anomalous dust emission. The BaR-SPOrt 32 GHz instrument, now under test and ready for operations by Spring 2005, is proposed for 1–2 years Winter operations at Dome C.

Published

2005

8. The Sky Polarization Observatory

Author

R. Fabbri, Silvio A. Bonometto, V.A. Razin, M. V. Sazhin, M. Ramponi, L. P. L. Colombo, M. Baralis, Oscar Antonio Peverini, R. Tascone, Kin-Wang Ng, Luciano Nicastro, V. Natale, Claudio Macculi, Luciano Casarini, C. Sbarra, Gianni Bernardi, Mario Zannoni, M. Poloni, B. Negri, G. Sironi, E. Carretti, Sergio Poppi, S. Cecchini, Jader Monari, Alessandro Orfei, Massimo Gervasi, Giuseppe Virone, I. A. Strukov, Stefano Cortiglioni, G. Boella, E. N. Vinyajkin, Cortiglioni, S, Bernardi, G, Carretti, E, Casarini, L, Cecchini, S, Macculi, C, Ramponi, M, Sbarra, C, Monari, J, Orfei, A, Poloni, M, Poppi, S, Boella, G, Bonometto, S, Colombo, L, Gervasi, M, Sironi, G, Zannoni, M, Baralis, M, Peverini, O, Tascone, R, Virone, G, Fabbri, R, Natale, V, Nicastro, L, Ng, K, Vinyajkin, E, Razin, V, Sazhin, M, Strukov, I, and Negri, B

Subjects

ANGULAR POWER SPECTRUM, SCANNING STRATEGY, media_common.quotation_subject, Cosmic microwave background, Polarimetry, Cosmic background radiation, FOS: Physical sciences, Astrophysics, FIS/05 - ASTRONOMIA E ASTROFISICA, symbols.namesake, Observatory, Observational cosmology, Stokes parameters, Cosmic microwave background, Polarization, Cosmology: observations, Instrumentation, media_common, Physics, Astrophysics (astro-ph), Astronomy, Astronomy and Astrophysics, GALACTIC SYNCHROTRON, Polarization (waves), Space and Planetary Science, Sky, PROBE WMAP OBSERVATIONS, symbols, MICROWAVE BACKGROUND POLARIZATION

Abstract

SPOrt is an ASI-funded experiment specifically designed to measure the sky polarization at 22, 32 and 90 GHz, which was selected in 1997 by ESA to be flown on the International Space Station. Starting in 2006 and for at least 18 months, it will be taking direct and simultaneous measurements of the Stokes parameters Q and U at 660 sky pixels, with FWHM=7 degrees. Due to development efforts over the past few years, the design specifications have been significantly improved with respect to the first proposal. Here we present an up-to-date description of the instrument, which now warrants a pixel sensitivity of 1.7 microK for the polarization of the cosmic background radiation, assuming two years of observations. We discuss SPOrt scientific goals in the light of WMAP results, in particular in connection with the emerging double-reionization cosmological scenario., 53 pages, 22 figures, 1 reference replaced

Published

2004

9. BaR-SPOrt: Balloon-Borne Radiometers for Sky Polarization Observations

Author

S. Cecchini, R. Fabbri, Sergio Poppi, S. Bonometto, A. Boscaleri, O. A. Peverini, G. Ventura, Natale, Gianni Bernardi, R. Tascone, E. N. Vinyajkin, Luciano Nicastro, Enzo Pascale, M. Baralis, Claudio Macculi, E. Carretti, G. Boella, M. V. Sazhin, C. Sbarra, Jader Monari, Renzo Nesti, M. De Petris, G. Sironi, Silvia Masi, M. Tucci, R. Di Raffaele, M. Gervasi, M. Zannoni, P. de Bernardis, Stefano Cortiglioni, Sbarra, C, Cortiglioni, S, Bernardi, G, Carretti, E, Cecchini, S, Macculi, C, Ventura, G, Baralis, M, Peverini, O, Tascone, R, Boella, G, Bonometto, S, Gervasi, M, Sironi, G, Tucci, M, Zannoni, M, Natale, V, Nesti, R, Fabbri, R, Monari, J, Poppi, S, Nicastro, L, di Raffaele, R, Boscaleri, A, Pascale, E, de Bernardis, P, de Petris, M, Masi, S, Sazhin, M, and Vinyajkin, E

Subjects

Physics, Radiometer, Astronomy, media_common.quotation_subject, Polarization (waves), Balloon, Cosmology, Astrophysic, FIS/05 - ASTRONOMIA E ASTROFISICA, Sky, Polarization, Cosmic Microwave Background, Remote sensing, media_common

Abstract

BaR-SPOrt, funded by ASI (Italian Space Agency), is a 32 (90) GHz balloon-borne correlation polarimeter for direct measurements of the Q and U Stokes parameters, with an angular resolution of 0.6° (0.2°). Aim of the experiment is the detection of the polarized emission of the diffuse Galactic Background and the Cosmic Microwave Background (CMB). The most likely launch site is Antarctica (2 to 4-week flight). Kiruna (Sweden, 1-week flight) and Svalbard (Norway, > 1-week flight) are possible launch site to observe the Northern sky

Published

2003

10. SPOrt: An experiment aimed at measuring the large scale cosmic microwave background polarization

Author

V.A. Razin, Riccardo Tascone, M. V. Sazhin, M. Tucci, R. Fabbri, C. Sbarra, Mario Zannoni, Silvio A. Bonometto, A. Orfei, Ettore Carretti, Kin-Wang Ng, S. Cecchini, M. Poloni, G. Sironi, Sergio Poppi, M. Baralis, Jader Monari, Oscar Antonio Peverini, Luciano Nicastro, Claudio Macculi, G. Boella, Massimo Gervasi, Giuseppe Virone, Gianni Bernardi, I. A. Strukov, Stefano Cortiglioni, E. N. Vinyajkin, Fineschi S., Carretti, E, Cortiglioni, S, Bernardi, G, Cecchini, S, Macculi, C, Sbarra, C, Monari, J, Orfei, A, Poloni, M, Poppi, S, Boella, G, Bonometto, S, Gervasi, M, Sironi, G, Zannoni, M, Tucci, M, Baralis, M, Peverini, O, Tascone, R, Virone, G, Fabbri, R, Nicastro, L, Ng, K, Razin, V, Vinyajkin, E, Sazhin, M, and Strukov, I

Subjects

DEVICES, media_common.quotation_subject, COSMOLOGICAL PARAMETERS, Cosmic microwave background, Phase (waves), UNIVERSE, FOS: Physical sciences, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Signal, GRAVITATIONAL-WAVES, FIS/05 - ASTRONOMIA E ASTROFISICA, Optics, Observatory, GHZ, Astrophysics::Galaxy Astrophysics, media_common, Physics, ANISOTROPY, Radiometer, business.industry, Astrophysics (astro-ph), Astrophysics::Instrumentation and Methods for Astrophysics, Polarization (waves), DEGREE ANGULAR SCALES, RESOLUTION, Sky, RADIATION, business, EMISSION, Microwave

Abstract

SPOrt (Sky Polarization Observatory) is a space experiment to be flown on the International Space Station during Early Utilization Phase aimed at measuring the microwave polarized emission with FWHM = 7deg, in the frequency range 22-90 GHz. The Galactic polarized emission can be observed at the lower frequencies and the polarization of Cosmic Microwave Background (CMB) at 90 GHz, where contaminants are expected to be less important. The extremely low level of the CMB Polarization signal (< 1 uK) calls for intrinsically stable radiometers. The SPOrt instrument is expressly devoted to CMB polarization measurements and the whole design has been optimized for minimizing instrumental polarization effects. In this contribution we present the receiver architecture based on correlation techniques, the analysis showing its intrinsic stability and the custom hardware development carried out to detect such a low signal., 9 pages, 5 figures, conference proceeding, to appear in "Polarimetry in Astronomy", SPIE Symposium on 'Astronomical Telescopes and Instrumentation', Waikoloa, August 22-28 2002

Published

2003