Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System

We present a wide-field (∼6′ × 6′) and deep near-infrared (K (s) band: 2.14 μm) circular polarization image in the Orion nebula, where massive stars and many low-mass stars are forming. Our results reveal that a high circular polarization region is spatially extended (∼0.4 pc) around the massive sta...

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Autores principales: Fukue, Tsubasa, Tamura, Motohide, Kandori, Ryo, Kusakabe, Nobuhiko, Hough, James H., Bailey, Jeremy, Whittet, Douglas C. B., Lucas, Philip W., Nakajima, Yasushi, Hashimoto, Jun
Formato: Texto
Lenguaje:English
Publicado: Springer Netherlands 2010
Materias:
Homochirality
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2858801/
https://www.ncbi.nlm.nih.gov/pubmed/20213160
http://dx.doi.org/10.1007/s11084-010-9206-1
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author Fukue, Tsubasa
Tamura, Motohide
Kandori, Ryo
Kusakabe, Nobuhiko
Hough, James H.
Bailey, Jeremy
Whittet, Douglas C. B.
Lucas, Philip W.
Nakajima, Yasushi
Hashimoto, Jun
author_facet Fukue, Tsubasa
Tamura, Motohide
Kandori, Ryo
Kusakabe, Nobuhiko
Hough, James H.
Bailey, Jeremy
Whittet, Douglas C. B.
Lucas, Philip W.
Nakajima, Yasushi
Hashimoto, Jun
author_sort Fukue, Tsubasa
collection PubMed
description We present a wide-field (∼6′ × 6′) and deep near-infrared (K (s) band: 2.14 μm) circular polarization image in the Orion nebula, where massive stars and many low-mass stars are forming. Our results reveal that a high circular polarization region is spatially extended (∼0.4 pc) around the massive star-forming region, the BN/KL nebula. However, other regions, including the linearly polarized Orion bar, show no significant circular polarization. Most of the low-mass young stars do not show detectable extended structure in either linear or circular polarization, in contrast to the BN/KL nebula. If our solar system formed in a massive star-forming region and was irradiated by net circularly polarized radiation, then enantiomeric excesses could have been induced, through asymmetric photochemistry, in the parent bodies of the meteorites and subsequently delivered to Earth. These could then have played a role in the development of biological homochirality on Earth.
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spelling pubmed-28588012010-04-27 Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System Fukue, Tsubasa Tamura, Motohide Kandori, Ryo Kusakabe, Nobuhiko Hough, James H. Bailey, Jeremy Whittet, Douglas C. B. Lucas, Philip W. Nakajima, Yasushi Hashimoto, Jun Orig Life Evol Biosph Homochirality We present a wide-field (∼6′ × 6′) and deep near-infrared (K (s) band: 2.14 μm) circular polarization image in the Orion nebula, where massive stars and many low-mass stars are forming. Our results reveal that a high circular polarization region is spatially extended (∼0.4 pc) around the massive star-forming region, the BN/KL nebula. However, other regions, including the linearly polarized Orion bar, show no significant circular polarization. Most of the low-mass young stars do not show detectable extended structure in either linear or circular polarization, in contrast to the BN/KL nebula. If our solar system formed in a massive star-forming region and was irradiated by net circularly polarized radiation, then enantiomeric excesses could have been induced, through asymmetric photochemistry, in the parent bodies of the meteorites and subsequently delivered to Earth. These could then have played a role in the development of biological homochirality on Earth. Springer Netherlands 2010-03-07 2010 /pmc/articles/PMC2858801/ /pubmed/20213160 http://dx.doi.org/10.1007/s11084-010-9206-1 Text en © The Author(s) 2010 https://creativecommons.org/licenses/by-nc/4.0/ This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
spellingShingle Homochirality
Fukue, Tsubasa
Tamura, Motohide
Kandori, Ryo
Kusakabe, Nobuhiko
Hough, James H.
Bailey, Jeremy
Whittet, Douglas C. B.
Lucas, Philip W.
Nakajima, Yasushi
Hashimoto, Jun
Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title_full Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title_fullStr Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title_full_unstemmed Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title_short Extended High Circular Polarization in the Orion Massive Star Forming Region: Implications for the Origin of Homochirality in the Solar System
title_sort extended high circular polarization in the orion massive star forming region: implications for the origin of homochirality in the solar system
topic Homochirality
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2858801/
https://www.ncbi.nlm.nih.gov/pubmed/20213160
http://dx.doi.org/10.1007/s11084-010-9206-1
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