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From planetary birth with aperture masking interferometry to nulling with Lithium Niobate technology

Project description

Aperture masking interferometry advances could shed light on planet formation

Exploring planetary formation requires observing the crucial process of planetary accretion, which occurs primarily in the gaps of protoplanetary discs. Aperture masking interferometry has proven to be an exceptional imaging technique in this area, offering higher dynamic range and nearly complete Fourier coverage compared to very-long-baseline interferometry. The ERC-funded LITHIUM project aims to advance this experimental technique by further increasing its accuracy, enabling the detection of fainter objects and offering deeper insight into planetary birth. Researchers will refine the closure phase observable through laboratory experiments and software improvements. Furthermore, they will combine nulling with the closure phase. By leveraging lithium niobate-integrated optics devices, LITHIUM could take aperture masking to new heights and help probe the mysteries of planet formation.

Objective

Observing the process of planetary accretion is crucial to inform models of planet formation. Most of the key action is expected to happen in the gaps of protostellar disks – a spatial realm over which aperture masking interferometry has demonstrated a unique ability to deliver incisive imaging. Masking offers twin advantages of higher dynamic range at the diffraction limit (lambda/D) than differential imaging, while at the same time giving nearly complete Fourier coverage compared to long baseline interferometry. The founding objective of this proposal is to create expertise and technology to understand the astrophysical phenomena so far only glimpsed in faint detections in stellar gaps such as those published in T Cha (Huelamo et al. 2011), HD142527 (Biller et al. 2012) and FL Cha (Cieza et al. 2013). But the central goal of this project is to further advance the experimental technique. Reaching even higher dynamic range for fainter detections is essential for probing planetary birth. The way to improve the dynamic range is clear: increase the accuracy of the primary closure phase observable. To do so, we will follow two paths. The first will use laboratory experimentations to analyse and understand the sources of bias to the closure phase. The resulting end-product will be better software offered to the community, and better techniques for a next generation of aperture masking devices. The second path is to amplify the closure phase signal by combining nulling with closure phase (Lacour et al. 2014). This second path is the most challenging, but will be an important breakthrough to the field. Nulling is to aperture masking what coronagraphy is to classical imaging. Without a first level of nulling, the aperture masking technique will always be limited by the photon noise due to the stellar light. We propose to build on our experience of Lithium Niobate integrated optics devices to bring aperture masking to a new level of performance in high dynamic range imaging.

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ERC-STG - Starting Grant

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Call for proposal

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(opens in new window) ERC-2014-STG

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Host institution

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
Net EU contribution

Net EU financial contribution. The sum of money that the participant receives, deducted by the EU contribution to its linked third party. It considers the distribution of the EU financial contribution between direct beneficiaries of the project and other types of participants, like third-party participants.

€ 1 851 881,00
Address
RUE MICHEL ANGE 3
75794 Paris
France

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Ile-de-France Ile-de-France Hauts-de-Seine
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Research Organisations
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Total cost

The total costs incurred by this organisation to participate in the project, including direct and indirect costs. This amount is a subset of the overall project budget.

€ 1 851 881,00

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