LIStEN: L′ band Imaging Survey for Exoplanets in the North

Arianna Musso Barcucci,Sebastian Marino,Eckhart A Spalding,Steve Ertel,Roy Van Boekel,André Müller,Thomas Henning,Stefan S Brems,Grant M Kennedy,Henrik L Ruh,Ralf Launhardt,Tim D Pearce

doi:10.1051/0004-6361/202039541

Abstract

Context. Planetary systems and debris discs are natural by-products of the star formation process, and they affect each other. The direct imaging technique allows simultaneous imaging of both a companion and the circumstellar disc it resides in, and is thus a valuable tool to study companion-disc interactions. However, the number of systems in which a companion and a disc have been detected at the same time remains low. Aims. Our aim is to increase this sample, and to continue detecting and studying the population of giant planets in wide orbits. Methods. We carry out the L′ band Imaging Survey for Exoplanets in the North (LIStEN), which targeted 28 nearby stars: 24 are known to harbour a debris disc (DD) and the remaining 4 are protoplanetary disc-hosting stars. We aim to detect possible new companions, and study the interactions between the companion and their discs. Angular differential imaging observations were carried out in the L′ band at 3.8 μm using the LMIRCam instrument at the LBT, between October 2017 and April 2019. Results. No new companions were detected. We combined the derived mass detection limits with information on the disc, and on the proper motion of the host star, to constrain the presence of unseen planetary and low-mass stellar companion around the 24 disc-hosting stars in our survey. We find that 2 have an uncertain DD status and the remaining 22 have disc sizes compatible with self-stirring. Three targets show a proper motion anomaly (PMa) compatible with the presence of an unseen companion. Conclusions. Our achieved mass limits combined with the PMa analysis for HD 113337 support the presence of a second companion around the star, as suggested in previous RV studies. Our mass limits also help to tighten the constraints on the mass and semi-major axis of the unseen companions around HD 161868 and HD 8907.

Highlights

While the number of detected exoplanets keeps increasing, there are still several missing pieces that are needed to understand the exoplanet population as a whole
For the data analysis and the companion-disc interaction analysis we focus on the debris disc (DD) targets only, while the analysis of the four PPD targets will be presented in conjunction with PPD targets observed by the ISPY survey in an upcoming paper
At least three targets from the LIStEN survey would benefit from additional follow-up observations: HD 161868, HD 8907, and HD 113337

Summary

Introduction

While the number of detected exoplanets keeps increasing, there are still several missing pieces that are needed to understand the exoplanet population as a whole. The main goal of the LIStEN survey is to detect and characterise the population of giant planets in wide orbits around young nearby stars with circumstellar discs For this reason our target selection prioritises stars with known discs (either PPD or DD), inferred either via known infrared excess or resolved images. We ended up with a final master target list, from which we had the flexibility of selecting suitable targets depending on the 2 The largest L band imaging survey from the LBT is, at the moment of writing, the Large Binocular Telescope Interferometer Exozodi Exoplanet Common Hunt (LEECH, Stone et al 2018), which observed 98 stars with no target overlap with the LIStEN survey. HD 8907 (2) HD 32977 HD 48682 (2) HD 50554 (2,3) HD 110897 (2) HD 113337 (2,3) HD 116956 HD 127821 (2) HD 128311 (2,3) HD 143894 (2) HD 152598 HIP 83043 (2,3) HD 161868 (2) HD 182919 HD 183324 (2) HD 184930 HD 191174 (2) HD 192425 (2) HD 205811 HD 206860 (3) HD 212695 (2) HD 219498 HD 220825 HD 221853

M1 A2 A8

Herschel

Double-belt analysis

Findings

Summary and conclusions