1b (Tamura et al 2006) Point-like sources are not completely ca

1b (Tamura et al. 2006). Point-like sources are not completely cancelled and are visible in the image even if they are unpolarized, because the seeing size changes during the observations of images taken at different quarter-waveplate

angles. Since our frame registration is not performed in a sub-pixel unit, the residual stellar profiles on the Stokes V image can be seen as a close pair of positive and negative peaks. This does not affect the polarimetry of extended nebulae on the Stokes V image or the aperture polarimetry of point-like sources performed using each waveplate angle image. The faint circular patterns centered on, and to the south of, the Trapezium in the CP image are ghost images caused by the polarimeter optics. Our wide-field image in Fig. 1 reveals that the CP OICR-9429 solubility dmso region around the BN/KL nebula extends over a large region (up to mTOR inhibitor ∼0.4 pc). The degrees of CP are very large, ranging from +17% to −5%, which is consistent with previous

polarimetry measurements (Bailey et al. 1998; Chrysostomou et al. 2000; Buschermöhle et al. 2005). The CP map reported in this study covers a much larger area than in previous studies. It reveals that significant CP extends over a region ∼400 times the size of the solar system (assumed to be ∼200 AU in diameter, LY2603618 clinical trial including trans-neptunian objects). This extension of the CP region is almost comparable to the size of the linearly polarized region in Fig. 1b (Tamura et al. 2006). There exists no significant CP around the Trapezium, Thiamet G in contrast with the BN/KL region. In particular, the linearly polarized Orion bar in Fig. 1b (Tamura et al. 2006) shows no significant CP in Fig. 1a. The centrosymmetric LP vector pattern indicates that the polarized Orion bar is irradiated by the Trapezium stars (Tamura et al. 2006). This indicates that the first scattering of the incident radiation from the Trapezium stars by the grains within the bar cannot produce the significant CP; this in turn

shows that the dust grains in the LP bar are not well aligned (Gledhill and McCall 2000). The colors of this region show that the Trapezium and the bar are located near the surface of the cloud (Buschermöhle et al. 2005) in contrast with the BN/KL region. Most of the low- or medium-mass young stars in Fig. 1 do not show extended structure in either LP or CP, in contrast to the BN/KL region. Even those with a NIR nebula that is linearly polarized (e.g., OMC-1S, see Tamura et al. 2006; see also Fig. 1), show no significant CP, even when the nebula is spatially resolved. Figure 2 shows the distribution of the aperture circular polarimetry, for the 353 point-like sources detected both in the K s band and H band with a polarization signal-to-noise ratio >10. Many of these sources are low-mass young stars whose circumstellar structures are unresolved at a 1.5-arcsecond resolution (equivalent to about 700 AU). Figure 3 shows a J-H vs. J color-magnitude diagram for these sources.

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