Your search keyword '"Jacquet, Elisa"' showing total 3 results

1. Mapping the Surface of Partially Cloudy Exoplanets is Hard

Author

Teinturier, Lucas, Vieira, Nicholas, Jacquet, Elisa, Geoffrion, Juliette, Bestavros, Youssef, Keating, Dylan, and Cowan, Nicolas B.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Reflected light photometry of terrestrial exoplanets could reveal the presence of oceans and continents, hence placing direct constraints on the current and long-term habitability of these worlds. Inferring the albedo map of a planet from its observed light curve is challenging because different maps may yield indistinguishable light curves. This degeneracy is aggravated by changing clouds. It has previously been suggested that disk-integrated photometry spanning multiple days could be combined to obtain a cloud-free surface map of an exoplanet. We demonstrate this technique as part of a Bayesian retrieval by simultaneously fitting for the fixed surface map of a planet and the time-variable overlying clouds. We test this approach on synthetic data then apply it to real disk-integrated observations of the Earth. We find that eight days of continuous synthetic observations are sufficient to reconstruct a faithful low resolution surface albedo map, without needing to make assumptions about cloud physics. For lightcurves with negligible photometric uncertainties, the minimal top-of-atmosphere albedo at a location is a good estimate of its surface albedo. When applied to observations from the Earth Polychromating Imaging Camera aboard the DSCOVR spacecraft, our approach removes only a small fraction of clouds. We attribute this difficulty to the full-phase geometry of observations combined with the short correlation length for Earth clouds. For exoplanets with Earth-like climatology, it may be hard to do much better than a cloud-averaged map. We surmise that cloud removal will be most successful for exoplanets imaged near quarter phase that harbour large cloud systems., Comment: 9 pages, 3 figures To be published in MNRAS

Published

2022

2. Phase Methods for Precision Measurements at BASE

Author

Jacquet, Elisa Elena

Subjects

Particle Physics - Experiment

Abstract

The Baryon Antibaryon Symmetry Experiment (BASE) is a high-precision experiment that aims to test CPT invariance by comparing the fundamental properties of matter/antimatter conjugates with high precision. It aims to compare the charge-to-mass ratios and g-factors of protons and antiprotons to the part-per-trillion level. Phase-sensitive measurement methods have allowed for some of the most precise measurements of g-factor and charge-to-mass ratios yet, and show promise for improved results. This report describes the hardware that was built to perform fast and reliable phase-sensitive measurements in BASE. The hardware was fully characterised and successfully implemented in the experiment, and has been demonstrated to work as expected.

Published

2022

3. Mapping the surface of partially cloudy exoplanets is hard

Author

Teinturier, Lucas, primary, Vieira, Nicholas, additional, Jacquet, Elisa, additional, Geoffrion, Juliette, additional, Bestavros, Youssef, additional, Keating, Dylan, additional, and Cowan, Nicolas B, additional

Published

2022