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2013A&A...549A..52E - Astronomy and Astrophysics, volume 549A, 52-52 (2013/1-1)

LBT observations of the HR 8799 planetary system. First detection of HR 8799e in H band.

ESPOSITO S., MESA D., SKEMER A., ARCIDIACONO C., CLAUDI R.U., DESIDERA S., GRATTON R., MANNUCCI F., MARZARI F., MASCIADRI E., CLOSE L., HINZ P., KULESA C., McCARTHY D., MALES J., AGAPITO G., ARGOMEDO J., BOUTSIA K., BRIGUGLIO R., BRUSA G., BUSONI L., CRESCI G., FINI L., FONTANA A., GUERRA J.C., HILL J.M., MILLER D., PARIS D., PINNA E., PUGLISI A., QUIROS-PACHECO F., RICCARDI A., STEFANINI P., TESTA V., XOMPERO M. and WOODWARD C.

Abstract (from CDS):

We have performed H and KS band observations of the planetary system around HR8799 using the new AO system at the Large Binocular Telescope and the PISCES Camera. The excellent instrument performance (Strehl ratios up to 80% in H band) enabled the detection of the innermost planet, HR8799e, at H band for the first time. The H and KS magnitudes of HR8799e are similar to those of planets c and d, with planet e being slightly brighter. Therefore, HR8799e is likely slightly more massive than c and d. We also explored possible orbital configurations and their orbital stability. We confirm that the orbits of planets b, c and e are consistent with being circular and coplanar; planet d should have either an orbital eccentricity of about 0.1 or be non-coplanar with respect to b and c. Planet e can not be in circular and coplanar orbit in a 4:2:1 mean motion resonances with c and d, while coplanar and circular orbits are allowed for a 5:2 resonance. The analysis of dynamical stability shows that the system is highly unstable or chaotic when planetary masses of about 5MJ for b and 7MJ for the other planets are adopted. Significant regions of dynamical stability for timescales of tens of Myr are found when adopting planetary masses of about 3.5, 5, 5, and 5MJ for HR8799b, c, d, and e respectively. These masses are below the current estimates based on the stellar age (30Myr) and theoretical models of substellar objects.

Abstract Copyright:

Journal keyword(s): stars: individual: HR 8799 - planetary systems - instrumentation: adaptive optics - techniques: high angular resolution - planets and satellites: dynamical evolution and stability - planets and satellites: physical evolution

Simbad objects: 21

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2021.02.26-08:58:15

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