Vincent Deo, Sebastien Vievard, Manon Lallement, Miles Lucas, Elsa Huby, Kyohoon Ahn, Olivier Guyon, Julien Lozi, Harry-Dean Kenchington-Goldsmith, Sylvestre Lacour, Guillermo Martin, Barnaby Norris, Guy Perrin, Garima Singh, Peter Tuthill
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引用次数: 0
Abstract
The petaling effect, induced by pupil fragmentation from the telescope
spider, drastically affects the performance of high contrast instruments by
inducing core splitting on the PSF. Differential piston/tip/tilt aberrations
within each optically separated fragment of the pupil are poorly measured by
commonly used Adaptive Optics (AO) systems. We here pursue a design of
dedicated low-order wavefront sensor -- or petalometers -- to complement the
main AO. Interferometric devices sense differential aberrations between
fragments with optimal sensitivity; their weakness though is their limitation
to wrapped phase measurements. We show that by combining multiple spectral
channels, we increase the capture range for petaling aberrations beyond several
microns, enough to disambiguate one-wave wrapping errors made by the main AO
system. We propose here to implement a petalometer from the multi-wavelength
imaging mode of the VAMPIRES visible-light instrument, deployed on SCExAO at
the Subaru Telescope. The interferometric measurements obtained in four
spectral channels through a 7 hole non-redundant mask allow us to effiiently
reconstruct diffierential piston between pupil petals.
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