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http://dx.doi.org/10.5303/JKAS.2015.48.3.195

POLARIZATION OF LYMAN α EMERGENT FROM A THICK SLAB OF NEUTRAL HYDROGEN  

AHN, SANG-HTEON (Korea Astronomy and Space Science Institute)
LEE, HEE-WON (Department of Astronomy and Space Science, Sejong University)
Publication Information
Journal of The Korean Astronomical Society / v.48, no.3, 2015 , pp. 195-202 More about this Journal
Abstract
Star forming galaxies found in the early universe exhibit asymmetric Lyα emission line that results from multiple scattering in a neutral thick medium surrounding the Lyα emission source. It is expected that emergent Lyα will be significantly polarized through a large number of resonance scattering events followed by a number of successive wing scatterings. In this study we adopt a Monte Carlo method to calculate the polarization of Lyα transferred in a very thick static slab of HI. Resonantly scattered radiation associated with transitions between is only weakly polarized and therefore linear polarization of the emergent Lyα is mainly dependent on the number of off-resonant wing scattering events. The number of wing scattering events just before escape from the slab is determined by the product of the Doppler parameter a and the line center optical depth τ0, which, in turn, determines the behavior of the linear polarization of Lyα. This result is analogous to the study of polarized radiative transfer of Thomson scattered photons in an electron slab, where the emergent photons are polarized in the direction perpendicular to the slab when the scattering optical depth is small and polarized in the parallel direction when the slab is optically thick. Our simulated spectropolarimetry of Lyα shows that the line center is negligibly polarized, the near wing parts polarized in the direction parallel to the slab and the far wing parts are polarized in the direction perpendicular to the slab. We emphasize that the flip of polarization direction in the wing parts of Lyα naturally reflects the diffusive nature of the Lyα transfer process in thick neutral media.
Keywords
profile; radiative transfer; polarization;
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1 Neufeld, D. A. 1990, The Transfer of Resonance-Line Radiation in Static Astrophysical Media, ApJ, 350, 216   DOI
2 Lee, H.-W.,& Ahn, S.-H. 1998, Polarization of the Lyα Line from an Anisotropically Expanding HI Shell in Primeval Galaxies, ApJ, 504, L61   DOI
3 Lee, H.-W., & Blandford, R. D. 1997, On the Polarization of Resonantly Scattered Emission Lines – III. Polarization of Quasar Broad Emission Lines and Broad Absorption Line Troughs, MNRAS, 288, 19   DOI
4 Lee, H.-W., Blandford, R. D., & Western, L. 1994, On the Polarization of Resonantly Scattered Emission Lines – I. Emission and Absorption Coefficients in an Anisotropic Radiation Field, MNRAS, 267, 303   DOI
5 Pettini, M., Shapley, A. E., Steidel, C. C., et al. 2001, The Rest-Frame Optical Spectra of Lyman Break Galaxies: Star Formation, Extinction, Abundances, and Kinematics, ApJ, 554, 981   DOI
6 Phillips, K. C., & Mészáros, P. 1986, Polarization and Beaming of Accretion Disk Radiation, ApJ, 310, 284   DOI
7 Stenflo, J. O. 1980, Resonance-Line Polarization. V – Quantum-Mechanical Interference between States of Different Total Angular Momentum, A&A, 84, 68
8 Stenflo, J. O. 1994, Solar Magnetic Fields – Polarized Radiation Diagnostics (Dordrecht: Kluwer)
9 Stenflo, J. O. 1996, Scattering Physics, Solar Phys., 164, 1   DOI
10 Ahn, S.-H., Lee, H.-W., & Lee, H. M. 2002, Lyα Line Formation in Starbursting Galaxies. II. Extremely Thick, Dustless, and Static HI Media, ApJ, 567, 922   DOI
11 Adams, T. 1972, The Escape of Resonance-Line Radiation from Extremely Opaque Media, ApJ, 174, 439   DOI
12 Ahn, S.-H., Lee, H.-W., & Lee, H. M. 2000, Ly Alpha Transfer in a Thick, Dusty, and Static Medium, JKAS, 33, 29
13 Ahn, S.-H., Lee, H.-W., & Lee, H.M. 2001, Lyα Line Formation in Starbursting Galaxies. I. Moderately Thick, Dustless, and Static HI Media, ApJ, 554, 604   DOI
14 Ahn, S.-H., Lee, H.-W., & Lee, H. M. 2003, P Cygni Type Lyα from Starburst Galaxies, MNRAS, 340, 863   DOI
15 Chandrasekhar, S. 1960, Radiative Transfer (New York: Dover)
16 Angel, J. R. P. 1969, Polarization of Thermal X-Ray Sources, ApJ, 158, 219   DOI
17 Avery, L. W., & House, L. L. 1968, An Investigation of Resonance-Line Scattering by the Monte Carlo Technique, ApJ, 152, 493   DOI
18 Bouwens, R. J., Thompson, R. I., Illingworth, G. D., et al. 2004, Galaxies at z ~ 7−8: z850-Dropouts in the Hubble Ultra Deep Field, ApJ, 616, L79   DOI
19 Harrington, J. P. 1973, The Scattering of Resonance-Line Radiation in the Limit of Large Optical Depth, MNRAS, 162, L43   DOI
20 Hayes, M., Scarlata, C., & Siana, B. 2011, Central Powering of the Largest Lyman-α Nebula is Revealed by Polarized Radiation, Nature, 476, 304   DOI
21 Kunth, D., Mas-Hesse, J. M., Terlevich, E., et al. 1998, HST Study of Lyman-alpha Emission in Star-Forming Galaxies: the Effect of Neutral Gas Flows, A&A, 334, 11