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Challenge of direct imaging of exoplanets within structures: disentangling real signal from point source from background light
The high contrast and spatial resolution requirements for directly imaging exoplanets requires effective coordination of wavefront control, coronagraphy, observation techniques, and post-processing algorithms. However, even with this suite of tools, identifying and retrieving exoplanet signals embed...
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| creator | Li, Jialin Close, Laird M Males, Jared R Haffert, Sebastiaan Y Weinberger, Alycia Follette, Katherine Wagner, Kevin Apai, Daniel Ya-Lin, Wu Long, Joseph D Perez, Laura Pearce, Logan A Kueny, Jay K McEwen, Eden A Kyle Van Gorkom Guyon, Olivier Kautz, Maggie Y Hedglen, Alexander D Foster, Warren B Roberts, Roz Lumbres, Jennifer Schatz, Lauren |
| description | The high contrast and spatial resolution requirements for directly imaging exoplanets requires effective coordination of wavefront control, coronagraphy, observation techniques, and post-processing algorithms. However, even with this suite of tools, identifying and retrieving exoplanet signals embedded in resolved scattered light regions can be extremely challenging due to the increased noise from scattered light off the circumstellar disk and the potential misinterpretation of the true nature of the detected signal. This issue pertains not only to imaging terrestrial planets in habitable zones within zodiacal and exozodiacal emission but also to young planets embedded in circumstellar, transitional, and debris disks. This is particularly true for H{\alpha} detection of exoplanets in transitional disks. This work delves into recent H{\alpha} observations of three transitional disks systems with MagAO-X, an extreme adaptive optics system for the 6.5-meter Magellan Clay telescope. We employed angular differential imaging (ADI) and simultaneous spectral differential imaging (SSDI) in combination with KLIP, a PCA algorithm in post-processing, for optimal starlight suppression and quasi-static noise removal. We discuss the challenges in protoplanet identification with MagAO-X in environments rich with scattered and reflected light from disk structures and explore a potential solution for removing noise contributions from real astronomical objects with current observation and post-processing techniques. |
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However, even with this suite of tools, identifying and retrieving exoplanet signals embedded in resolved scattered light regions can be extremely challenging due to the increased noise from scattered light off the circumstellar disk and the potential misinterpretation of the true nature of the detected signal. This issue pertains not only to imaging terrestrial planets in habitable zones within zodiacal and exozodiacal emission but also to young planets embedded in circumstellar, transitional, and debris disks. This is particularly true for H{\alpha} detection of exoplanets in transitional disks. This work delves into recent H{\alpha} observations of three transitional disks systems with MagAO-X, an extreme adaptive optics system for the 6.5-meter Magellan Clay telescope. We employed angular differential imaging (ADI) and simultaneous spectral differential imaging (SSDI) in combination with KLIP, a PCA algorithm in post-processing, for optimal starlight suppression and quasi-static noise removal. 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| identifier | EISSN: 2331-8422 |
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| language | eng |
| recordid | cdi_proquest_journals_3082705739 |
| source | Publicly Available Content (ProQuest) |
| subjects | Accretion disks Adaptive optics Adaptive systems Algorithms Background noise Celestial bodies Circumstellar habitable zone Extrasolar planets Imaging Point sources Protoplanets Spatial resolution Terrestrial planets Wave front control Wave fronts |
| title | Challenge of direct imaging of exoplanets within structures: disentangling real signal from point source from background light |
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