The telescope's advanced imaging tools enabled the team to study regions close to the star that were previously out of reach. They identified a thick, transitional disk sculpted by the processes of planet formation and detected an inner structure encircled by dust. Between the inner envelope and protoplanetary disk, a gap spanning about 40 astronomical units was revealed, marking a potential site of planet formation. No protoplanets were directly detected, but the analysis yielded precise constraints on their possible location while determining the star's mass and accretion rate.

HD 34282 is part of the Search for Protoplanets with Aperture Masking (SPAM) project, designed to improve astronomers' view of planet-forming regions. Previous use of Keck's NIRC2 helped identify two confirmed protoplanets, PDS 70 b and PDS 70 c. The team plans to expand its research with additional systems and leverage new high-contrast imaging instruments being developed for the observatory.

"By studying systems like this, we can watch planet formation in action and learn what conditions give rise to worlds like our own," says Christina Vides, lead author of the published study. Vides underscored the technical leap in resolving features just a few astronomical units from the star. The project's continuing efforts will further clarify the mechanisms that shape new planetary bodies across the galaxy.

Research Report:NIRC2 Interferometric Imaging of the HD 34282 Transition Disk's Small Grain Structure

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