We observed the K7 class III star NO Lup in an ALMA survey of the 1-3 Myr Lupus association and detected circumstellar dust and CO gas. Here we show that the J = 3-2 CO emission is both spectrally and spatially resolved, with a broad velocity width similar to 19 kms(-1) for its resolved size similar to 1 arcsec (similar to 130 au). We model the gas emission as a Keplerian disc, finding consistency, but only with a central mass of similar to 11M(circle dot), which is implausible given its spectral type and X-Shooter spectrum. A good fit to the data can also be found by modelling the CO emission as outfiowing gas with a radial velocity similar to 22 km s(-1). We interpret NO Lup's CO emission as the first imaged class III circumstellar disc with outfiowing gas. We conclude that the CO is continually replenished, but cannot say if this is from the breakup of icy planetesimals or from the last remnants of the protoplanetary disc. We suggest further work to explore the origin of this CO, and its higher than expected velocity in comparison to photoevaporative models.
Rapid CO gas dispersal from NO Lup's class III circumstellar disc / J. Lovell, G. Kennedy, S. Marino, M. Wyatt, M. Ansdell, M. Kama, C. Manara, L. Matra, G. Rosotti, M. Tazzari, L. Testi, J. Williams. - In: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY. - ISSN 0035-8711. - 502:1(2021 Mar), pp. L66-L71. [10.1093/mnrasl/slaa189]
Rapid CO gas dispersal from NO Lup's class III circumstellar disc
G. Rosotti;
2021
Abstract
We observed the K7 class III star NO Lup in an ALMA survey of the 1-3 Myr Lupus association and detected circumstellar dust and CO gas. Here we show that the J = 3-2 CO emission is both spectrally and spatially resolved, with a broad velocity width similar to 19 kms(-1) for its resolved size similar to 1 arcsec (similar to 130 au). We model the gas emission as a Keplerian disc, finding consistency, but only with a central mass of similar to 11M(circle dot), which is implausible given its spectral type and X-Shooter spectrum. A good fit to the data can also be found by modelling the CO emission as outfiowing gas with a radial velocity similar to 22 km s(-1). We interpret NO Lup's CO emission as the first imaged class III circumstellar disc with outfiowing gas. We conclude that the CO is continually replenished, but cannot say if this is from the breakup of icy planetesimals or from the last remnants of the protoplanetary disc. We suggest further work to explore the origin of this CO, and its higher than expected velocity in comparison to photoevaporative models.
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