Published May 2019
| Version v1
Journal article
The Future of Exoplanet Direct Detection
Creators
- Monnier, John
- Rau, Gioia
- Baines, Ellyn K.
- Sanchez-Bermudez, Joel
- Elvis, Martin
- Ragland, Sam
- Akeson, Rachel
- van Belle, Gerard
- Norris, Ryan
- Gordon, Kathryn
- Defrère, Denis
- Ridgway, Stephen
- Le Bouquin, Jean-Baptiste
- Anugu, Narsireddy
- Scott, Nicholas
- Kane, Stephen
- Richardson, Noel
- Regaly, Zsolt
- Zhu, Zhaohuan
- Chiavassa, Andrea
- Vasisht, Gautam
- Stassun, Keivan G.
- Dong, Chuanfei
- Absil, Olivier
- Lacour, Sylvestre
- Weigelt, Gerd
- Gies, Douglas
- Adams, Fred C.
- Calvet, Nuria
- Quanz, Sascha P.
- Espaillat, Catherine
- Gardner, Tyler
- Greenbaum, Alexandra
- Millan-Gabet, Rafael
- Packham, Chris
- Gai, Mario
- Kral, Quentin
- Berger, Jean-Philippe
- Linz, Hendrik
- Klarmann, Lucia
- Bae, Jaehan
- Lopez Garcia, Rebeca
- Alexandre, Gallenne
- Baron, Fabien
- Hartmann, Lee
- Kishimoto, Makoto
- Mcclure, Melissa
- Olofsson, Johan
- Haniff, Chris
- Line, Michael
- Petrov, Romain G.
- Smith, Michael
- Hummel, Christian
- ten Brummelaar, Theo
- de Furio, Matthew
- Rinehart, Stephen
- Leisawitz, David
- Danchi, William
- Huber, Daniel
- Wishnow, Edward
- Mourard, Denis
- Pope, Benjamin
- Ireland, Michael
- Kraus, Stefan
- Setterholm, Benjamin
- White, Russel
Description
Diffraction fundamentally limits our ability to image and characterize exoplanets. Interferometry offers some advantages in exoplanet detection and characterization and we explore in this white paper some of the potential scientific breakthroughs possible.
Abstract
International audienceAdditional details
Identifiers
- URL
- https://hal.archives-ouvertes.fr/hal-03058932
- URN
- urn:oai:HAL:hal-03058932v1
Origin repository
- Origin repository
- UNICA