DISCOVERY OF POLARIZATION REVERBERATION IN NGC 4151

Observations of the optical polarization of NGC 4151 in 1997-2003 show variations of an order of magnitude in the polarized flux while the polarization position angle remains constant. The amplitude of variability of the polarized flux is comparable to the amplitude of variability of the total U-ban...

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Veröffentlicht in:	The Astrophysical journal 2012-04, Vol.749 (2), p.1-4
Hauptverfasser:	MARTIN GASKELL, C, GOOSMANN, René W, MERKULOVA, Nelly I, SHAKHOVSKOY, Nikolay M, SHOJI, Masatoshi
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Sprache:	eng
Schlagworte:	Amplitudes Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Constants DUSTS Earth, ocean, space ELECTRONS EMISSION Exact sciences and technology Flattening Flux GALAXIES IONIZATION Origins POLARIZATION QUASARS Radio SCATTERING Synchrotrons
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creator	MARTIN GASKELL, C GOOSMANN, René W MERKULOVA, Nelly I SHAKHOVSKOY, Nikolay M SHOJI, Masatoshi
description	Observations of the optical polarization of NGC 4151 in 1997-2003 show variations of an order of magnitude in the polarized flux while the polarization position angle remains constant. The amplitude of variability of the polarized flux is comparable to the amplitude of variability of the total U-band flux, except that the polarized flux follows the total flux with a lag of 8 + or - 3 days. The time lag and the constancy of the position angle strongly favor a scattering origin for the variable polarization rather than a non-thermal synchrotron origin. The orientation of the position angle of the polarized flux (parallel to the radio axis) and the size of the lag imply that the polarization arises from electron scattering in a flattened region within the low-ionization component of the broad-line region. Polarization from dust scattering in the equatorial torus is ruled out as the source of the lag in polarized flux because it would produce a larger lag and, unless the half-opening angle of the torus is >53[degree], the polarization would be perpendicular to the radio axis. We note a long-term change in the percentage of polarization at similar total flux levels, and this could be due either to changing non-axisymmetry in the optical continuum emission or a change in the number of scatterers on a timescale of years.
doi_str_mv	10.1088/0004-637X/749/2/148
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The amplitude of variability of the polarized flux is comparable to the amplitude of variability of the total U-band flux, except that the polarized flux follows the total flux with a lag of 8 + or - 3 days. The time lag and the constancy of the position angle strongly favor a scattering origin for the variable polarization rather than a non-thermal synchrotron origin. The orientation of the position angle of the polarized flux (parallel to the radio axis) and the size of the lag imply that the polarization arises from electron scattering in a flattened region within the low-ionization component of the broad-line region. Polarization from dust scattering in the equatorial torus is ruled out as the source of the lag in polarized flux because it would produce a larger lag and, unless the half-opening angle of the torus is >53[degree], the polarization would be perpendicular to the radio axis. 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The amplitude of variability of the polarized flux is comparable to the amplitude of variability of the total U-band flux, except that the polarized flux follows the total flux with a lag of 8 + or - 3 days. The time lag and the constancy of the position angle strongly favor a scattering origin for the variable polarization rather than a non-thermal synchrotron origin. The orientation of the position angle of the polarized flux (parallel to the radio axis) and the size of the lag imply that the polarization arises from electron scattering in a flattened region within the low-ionization component of the broad-line region. Polarization from dust scattering in the equatorial torus is ruled out as the source of the lag in polarized flux because it would produce a larger lag and, unless the half-opening angle of the torus is >53[degree], the polarization would be perpendicular to the radio axis. 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subjects	Amplitudes Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Constants DUSTS Earth, ocean, space ELECTRONS EMISSION Exact sciences and technology Flattening Flux GALAXIES IONIZATION Origins POLARIZATION QUASARS Radio SCATTERING Synchrotrons
title	DISCOVERY OF POLARIZATION REVERBERATION IN NGC 4151
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