ON THE UNUSUAL GAS COMPOSITION IN THE [beta] PICTORIS DEBRIS DISK
The metallic gas associated with the [beta] Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent observations have shown that carbon and oxygen in this gas are exceptionally overabundant compared to other elements, by some 400 times. We study the o...
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| Published in | The Astrophysical journal Vol. 762; no. 2; pp. 1 - 9 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
10.01.2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0004-637X 1538-4357 |
| DOI | 10.1088/0004-637X/762/2/114 |
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| Abstract | The metallic gas associated with the [beta] Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent observations have shown that carbon and oxygen in this gas are exceptionally overabundant compared to other elements, by some 400 times. We study the origin of this enrichment under two opposing hypotheses: preferential production, where the gas is produced with the observed unusual abundance (as may happen if gas is produced by photodesorption from C/O-rich icy grains), and preferential depletion, where the gas evolves to the observed state from an original solar abundance (if outgassing occurs under high-speed collisions) under a number of dynamical processes. We include in our study the following processes: radiative blowout of metallic elements, dynamical coupling between different species, and viscous accretion onto the star. We find that, if gas viscosity is sufficiently low (the conventional [alpha] parameter [lap]10 super(-3)), differential blowout dominates. |
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| AbstractList | The metallic gas associated with the {beta} Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent observations have shown that carbon and oxygen in this gas are exceptionally overabundant compared to other elements, by some 400 times. We study the origin of this enrichment under two opposing hypotheses: preferential production, where the gas is produced with the observed unusual abundance (as may happen if gas is produced by photodesorption from C/O-rich icy grains), and preferential depletion, where the gas evolves to the observed state from an original solar abundance (if outgassing occurs under high-speed collisions) under a number of dynamical processes. We include in our study the following processes: radiative blowout of metallic elements, dynamical coupling between different species, and viscous accretion onto the star. We find that, if gas viscosity is sufficiently low (the conventional {alpha} parameter {approx}< 10{sup -3}), differential blowout dominates. While gas accumulates gradually in the disks, metallic elements subject to strong radiation forces, such as Na and Fe, deplete more quickly than C and O, naturally leading to the observed overabundance of C and O. On the other hand, if gas viscosity is high ({alpha} {approx}> 10{sup -1}, as expected for this largely ionized disk), gas is continuously produced and viscously accreted toward the star. This removal process does not discriminate between elements so the observed overabundance of C and O has to be explained by a preferential production that strongly favors C and O to other metallic elements. One such candidate is photodesorption off the grains. We compare our calculation against all observed elements ({approx}10) in the gas disk and find a mild preference for the second scenario, based on the abundance of Si alone. If true, {beta} Pic should still be accreting at an observable rate, well after its primordial disk has disappeared. The metallic gas associated with the [beta] Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent observations have shown that carbon and oxygen in this gas are exceptionally overabundant compared to other elements, by some 400 times. We study the origin of this enrichment under two opposing hypotheses: preferential production, where the gas is produced with the observed unusual abundance (as may happen if gas is produced by photodesorption from C/O-rich icy grains), and preferential depletion, where the gas evolves to the observed state from an original solar abundance (if outgassing occurs under high-speed collisions) under a number of dynamical processes. We include in our study the following processes: radiative blowout of metallic elements, dynamical coupling between different species, and viscous accretion onto the star. We find that, if gas viscosity is sufficiently low (the conventional [alpha] parameter [lap]10 super(-3)), differential blowout dominates. |
| Author | Brandeker, Alexis Xie, Ji-Wei Wu, Yanqin |
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| BackLink | https://www.osti.gov/biblio/22167269$$D View this record in Osti.gov |
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| Snippet | The metallic gas associated with the [beta] Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent... The metallic gas associated with the {beta} Pic debris disk is not believed to be primordial, but arises from the destruction of dust grains. Recent... |
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| SubjectTerms | Abundance ASTRONOMY ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BLOWOUTS CALCIUM CARBON COMPARATIVE EVALUATIONS COSMIC DUST COSMIC GASES COUPLING Debris DEGASSING Disks ELEMENT ABUNDANCE Enrichment Gas composition Grains INTERSTELLAR GRAINS IRON OXYGEN PLANETS PROTOPLANETS SODIUM STARS VISCOSITY |
| Title | ON THE UNUSUAL GAS COMPOSITION IN THE [beta] PICTORIS DEBRIS DISK |
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