C. Neyman scite author profile

We report the results of a sensitive K-band survey of Herbig Ae/ Be disk sizes using the 85 m baseline Keck Interferometer. Targets were chosen to span the maximum range of stellar properties to probe the disk size dependence on luminosity and effective temperature. For most targets, the measured near-infrared sizes (ranging from 0.2 to 4 AU ) support a simple disk model possessing a central optically thin (dust-free) cavity, ringed by hot dust emitting at the expected sublimation temperatures (T s $ 1000-1500 K). Furthermore, we find a tight correlation of disk size with source luminosity R / L 1 = 2 for Ae and late Be systems (valid over more than two decades in luminosity), confirming earlier suggestions based on lower quality data. Interestingly, the inferred dust-free inner cavities of the highest luminosity sources (Herbig B0-B3 stars) are undersized compared to predictions of the ''optically thin cavity'' model, likely because of optically thick gas within the inner AU.

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Erratum: “The Near‐Infrared Size‐Luminosity Relations for Herbig Ae/Be Disks” (ApJ, 624, 832 [2005])

Monnier¹,

Millan-Gabet²,

Billmeier³

et al. 2005

ApJ

104

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Interferometer Observations of Subparsec-Scale Infrared Emission in the Nucleus of NGC 4151

Swain

Vasisht

Akeson

et al. 2003

ApJ

103

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We report novel, high-angular resolution interferometric measurements that imply the near-infrared nuclear emission in NGC 4151 is unexpectedly compact. We have observed the nucleus of NGC 4151 at 2.2 µm using the two 10-meter Keck telescopes as an interferometer and find a marginally resolved source ≤ 0.1 pc in diameter. Our measurements rule out models in which a majority of the K band nuclear emission is produced on scales larger than this size. The interpretation of our measurement most consistent with other observations is that the emission mainly originates directly in the central accretion disk. This implies that AGN unification models invoking hot, optically thick dust may not be applicable to NGC 4151.

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Episodic bright and dark spots on Uranus

Sromovsky

Hammel²,

Pater

et al. 2012

Icarus

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Keck Interferometer Observations of FU Orionis Objects

Millan-Gabet¹,

Monnier²,

Akeson³

et al. 2006

ApJ

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We present new K-band long baseline interferometer observations of three young stellar objects of the FU Orionis class, V1057 Cyg, V1515 Cyg and Z CMa-SE, obtained at the Keck Interferometer during its commissioning science period. The interferometer clearly resolves the source of near-infrared emission in all three objects. Using simple geometrical models we derive size scales (0.5-4.5 AU) for this emission. All three objects appear significantly more resolved than expected from simple models of accretion disks tuned to fit the broadband optical and infrared spectro-photometry. We explore variations in the key parameters that are able to lower the predicted visibility amplitudes to the measured levels, and conclude that accretion disks alone do not reproduce the spectral energy distributions and K-band visibilities simultaneously. We conclude that either disk models are inadequate to describe the near-infrared emission, or additional source components are needed. We hypothesize that large scale emission (10s of AU) in the interferometer field of view is responsible for the surprisingly low visibilities. This emission may arise in scattering by large envelopes believed to surround these objects.Comment: Accepted by The Astrophysical Journal, in pres

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C. Neyman

The Near‐Infrared Size‐Luminosity Relations for Herbig Ae/Be Disks

Erratum: “The Near‐Infrared Size‐Luminosity Relations for Herbig Ae/Be Disks” (ApJ, 624, 832 [2005])

Interferometer Observations of Subparsec-Scale Infrared Emission in the Nucleus of NGC 4151

Episodic bright and dark spots on Uranus

Keck Interferometer Observations of FU Orionis Objects

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