Near-Infrared Imaging Polarimetry of the Star-Forming Region NGC 2024

Details Near-Infrared Imaging Polarimetry of the Star-Forming Region NGC 2024 Near-Infrared Imaging Polarimetry of the Star-Forming Region NGC 2024

Jun 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007pasj...59..487k&link_type=abstract

Publications of the Astronomical Society of Japan, Vol.59, No.3, pp.487-506

Astronomy and Astrophysics

Astronomy

17

Circumstellar Matter, Infrared: Stars, Ism: Individual (Ngc 2024), Polarization, Stars: Formation

Scientific paper

We conducted wide-field JHKs imaging polarimetry toward NGC 2024, which is a massive star-forming region in the Orion B cloud. We found a prominent and extended polarized nebula over NGC 2024, and constrained the location of the illuminating source of the nebula through an analysis of polarization vectors. A massive star, IRS 2b with a spectral type of O8-B2, is located in the center of the symmetric vector pattern. Five small polarized nebulae associated with YSOs were discovered on our polarization images. These nebulae are responsible for the structures of circumstellar matter (i.e., disk/envelope systems) that produce strongly polarized light through dust scattering. For the point-like sources, we performed software aperture polarimetry in order to measure integrated polarizations, with which we detected candidate sources associated with circumstellar material. We found five young brown dwarfs with highly polarized integrated emission. These sources serve as direct evidence for the existence of a disk/envelope system around brown dwarfs. We investigated the fraction of highly polarized sources against the intrinsic luminosity of stars (∝ mass), and found that the source detection rate remains constant from low luminosity (brown dwarfs) to higher luminosity (solar-type) stars. This result indicates that the relative disk scale-hight is rather independent of the stellar mass. We investigated the magnetic field structure of NGC 2024 through measurements of dichroic polarization. The average position angle of projected magnetic fields across the region is found to be 110°. We found a good consistency in magnetic field structures obtained using near-infrared dichroic polarization and sub-mm/far-infrared dust emission polarization, indicating that the dichroic polarizations at near-infrared wavelengths trace magnetic field structures inside dense (AV ≲ 50 mag) molecular clouds.

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