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Post Info TOPIC: Proplyds


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RE: Proplyds
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A NASA researcher has modelled how 25,000 dust particles found around sun-like stars respond to the presence of a planet orbiting around it. The research points to a new method in searching for habitable planets.

"It may be a while before we can directly image earth-like planets around other stars but, before then, we'll be able to detect the ornate and beautiful rings they carve in interplanetary dust" - Christopher Stark, the study's lead researcher at the University of Maryland, College Park.

Using the Thunderhead supercomputer at NASA's Goddard Space Flight Centre, the scientists ran 120 different simulations that varied the size of the dust particles and the planet's mass and orbital distance.

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Astronomers have used ESO's Very Large Telescope Interferometer to conduct the first high resolution survey that combines spectroscopy and interferometry on intermediate-mass infant stars. They obtained a very precise view of the processes acting in the discs that feed stars as they form. These mechanisms include material infalling onto the star as well as gas being ejected, probably as a wind from the disc.

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A planet similar to the size of Earth and a planet like Venus recently collided and were destroyed as they orbited around the star BD+20°307 in a mature solar system like our own. It is being called the ultimate extinction event.

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Masses of dust floating around a distant binary star system suggest that two Earth-like planets obliterated each other in a violent collision
Writing in the Astrophysical Journal, the team at UCLA, Tennessee State University and the California Institute of Technology said it spotted the dust orbiting a star known as BD +20 307, 300 million light-years from Earth in the constellation Aries.

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Astronomers have been able to study planet-forming discs around young Sun-like stars in unsurpassed detail, using ESO's Very Large Telescope. The studied discs were known to have gaps in the dusty discs but the astronomers found that gas is still present inside these gaps. This can either mean that the dust has clumped together to form planetary embryos, or that a planet has already formed and is in the process of clearing the gas in the disc.

The CRIRES Instrument, located on the Nasmyth-platform of VLT Unit Telescope 1, Antu. CRIRES is the cryogenic high-resolution infrared echelle spectrograph, which provides a resolving power of up to 100 000 in the spectral range from 1 to 5 microns. CRIRES can boost all scientific applications aiming at fainter objects, higher spatial (extended sources), spectral and temporal resolution. CRIRES also allows astronomers to make use of the innovative 'spectral imaging' method.

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Debris disk formation
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Title: Variations on Debris Disks: Icy Planet Formation at 30-150 AU for 1-3 Solar Mass Main Sequence Stars
Authors: Scott J. Kenyon, Benjamin C. Bromley

We describe calculations for the formation of icy planets and debris disks at 30-150 AU around 1-3 solar mass stars. Debris disk formation coincides with the formation of planetary systems. As protoplanets grow, they stir leftover planetesimals to large velocities. A cascade of collisions then grinds the leftovers to dust, forming an observable debris disk. Stellar lifetimes and the collisional cascade limit the growth of protoplanets. The maximum radius of icy planets, roughly 1750 km, is remarkably independent of initial disk mass, stellar mass, and stellar age. These objects contain no more than 3% to 4% of the initial mass in solid material. Collisional cascades produce debris disks with maximum luminosity of roughly 0.002 times the stellar luminosity. The peak 24 micron excess varies from roughly 1% of the stellar photospheric flux for 1 solar mass stars to roughly 50 times the stellar photospheric flux for 3 solar mass stars. The peak 70-850 micron excesses are roughly 30-100 times the stellar photospheric flux. For all stars, the 24-160 micron excesses rise at stellar ages of 5-20 Myr, peak at 10-50 Myr, and then decline. The decline is roughly a power law, with f propto t^{-n} and n = 0.6-1.0. This predicted evolution agrees with published observations of A-type and solar-type stars. The observed far-IR colour evolution of A-type stars also matches model predictions.

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Protoplanetary disks
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Title: A Spitzer view of protoplanetary disks in the gamma Velorum cluster
Authors: Jesus Hernandez (1,2), Lee Hartmann (1), Nuria Calvet (1), R. D. Jeffries (3), R. Gutermuth (4), J. Muzerolle (5), J. Stauffer (6) ((1) Department of Astronomy, University of Michigan, Ann Arbor, MI, US; (2) Centro de Investigaciones de Astronomia, Merida, Venezuela; (3) Astrophysics Group, Keele University, Keele, Staffordshire; (4) Harvard-Smithsonian Center for Astrophysics, MA, US; (5) Steward Observatory, University of Arizona, Tucson, AZ, US; (6) Spitzer Science Center, Pasadena, CA, US)

We present new Spitzer Space Telescope observations of stars in the young ~5 Myr gamma Velorum stellar cluster. Combining optical and 2MASS photometry, we have selected 579 stars as candidate members of the cluster. With the addition of the Spitzer mid-infrared data, we have identified 5 debris disks around A-type stars, and 5-6 debris disks around solar-type stars, indicating that the strong radiation field in the cluster does not completely suppress the production of planetesimals in the disks of cluster members. However, we find some evidence that the frequency of circumstellar primordial disks is lower, and the IR flux excesses are smaller than for disks around stellar populations with similar ages. This could be evidence for a relatively fast dissipation of circumstellar dust by the strong radiation field from the highest mass star(s) in the cluster. Another possibility is that gamma Velorum stellar cluster is slightly older than reported ages and the low frequency of primordial disks reflects the fast disk dissipation observed at ~5 Myr.

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RE: Proplyds
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Title: The nature of mid-infrared excesses from hot dust around Sun-like stars
Authors: R. Smith, M. C. Wyatt, W. R. F. Dent

Studies of debris disks have shown that most systems are analogous to the Edgeworth-Kuiper Belt. However a rare subset of sun-like stars possess dust which lies in the terrestrial planet region. In this study we aim to determine how many sources with apparent mid-IR excess are truly hosts of warm dust, and investigate where the dust must lie. We observed using mid-IR imaging with TIMMI2, VISIR and MICHELLE a sample of FGK main sequence stars reported to have hot dust. A new modelling approach was developed to determine the constraints that can be set on the radial extent of excess emission. We confirm the presence of warm dust around 3 of the candidates (eta Corvi, HD145263 and HD202406), and present constraints on the emitting dust regions. Of 2 alternative models for the eta Corvi excess emission, we find that a model with 1 hot dust component at <3 AU (combined with the known submm dust population) fits the data better at the 2.6sigma level than an alternative model with 2 populations of dust in the mid-IR. We identify several systems which have a companion (HD65277 and HD79873) or background object (HD53246, HD123356 and HD128400) responsible for their mid-infrared excess, and for 3 other systems we were able to rule out a point-like source near the star at the level of excess observed in lower resolution observations (HD12039, HD69830 and HD191089). Hot dust sources are either young and possibly primordial or transitional, or have relatively small radius steady-state planetesimal belts, or they are old and luminous with transient emission. High resolution imaging can be used to constrain the location of the disk and help to discriminate between different models of disk emission. For some small disks, interferometry is needed to resolve the disk location.

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Title: Proplyds and Massive Disks in the Orion Nebula Cluster Imaged with CARMA and SMA
Authors: J. A. Eisner, R. L. Plambeck, John M. Carpenter, S. A. Corder, C. Qi, D. Wilner

We imaged a 2' x 2' region of the Orion Nebula cluster in 1.3 mm wavelength continuum emission with the recently commissioned Combined Array for Research in Millimetre Astronomy (CARMA) and with the Submillimeter Array (SMA). Our mosaics include >250 known near-IR cluster members, of which 36 are so-called "proplyds" that have been imaged previously with the Hubble Space Telescope. We detected 40 sources in 1 mm continuum emission, and several of them are spatially resolved with our observations. Dust masses inferred for detected sources range from 0.01 to 0.5 Msun, and the average disk mass for undetected sources is estimated to be ~0.001 Msun, approximately an order of magnitude smaller than the minimum mass solar nebula. Most stars in the ONC thus do not appear to currently possess sufficient mass in small dust grains to form Jupiter-mass (or larger) planets. Comparison with previous results for younger and older regions indicates that massive disks evolve significantly on ~Myr timescales. We also show that the percentage of stars in Orion surrounded by disks more massive than ~0.01 Msun is substantially lower than in Taurus, indicating that environment has an impact on the disk mass distribution. Finally, we explore potential correlations of disk mass with stellar mass and location within the cluster.

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Protoplanetary Disks
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Title: The Structure of Protoplanetary Disks Surrounding Three Young Intermediate Mass Stars. I. Resolving the disk rotation in the [OI] 6300 Å line
Authors: G. van der Plas (1,2), M. E. van den Ancker (1), D. Fedele (1,3,4), B. Acke (5), C. Dominik (2), L.B.F.M. Waters (2), J. Bouwman (4) ((1) European Southern Observatory, (2) University of Amsterdam, (3) Universita Degli Studi Di Padova, (4) Max-Planck-Institut fur Astronomie, Heidelberg, (5) Institute of Astronomy, KU Leuven)

We present high spectral resolution optical spectra of three young intermediate mass stars, in all of which we spectrally resolve the 6300 Angstrom [OI] emission line. Two of these have a double peaked line profile. We fit these data with a simple model of the [OI] emission caused by photo-dissociation of OH molecules in the upper layer of a circumstellar disk by stellar UV radiation and thus translate the Doppler broadened [OI] emission profile into an amount of emission as a function of distance from the central star. The resulting spectra are in agreement with the expected disk shapes as derived from their spectral energy distribution. We find evidence for shadowing by an inner rim in the disk surrounding HD101412 and see a flaring disk structure in HD179218 while the [OI] spectrum of HD135344 is more complex. The [OI] emission starts for all three targets at velocities corresponding to their dust sublimation radius and extends up to radii of 10 -- 90 AU. This shows that this method can be a valuable tool in the future investigation of circumstellar disks.

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