Spectroscopy using a visible photonic lantern at the Subaru telescope: Laboratory characterization and first on-sky demonstration on Ikiiki (α Leo) and `Aua (α Ori)
Vievard Sébastien, Lallement Manon, Leon-Saval Sergio, Guyon Olivier, Jovanovic Nemanja, Huby Elsa, Lacour Sylvestre, Lozi Julien, Deo Vincent, Ahn Kyohoon, Lucas Miles, Sallum Steph, Norris Barnaby, Betters Chris, Amezcua-Correa Rodrygo, Yerolatsitis Stephanos, Fitzgerald Michael, Lin Jon, Kim Yoo Jung, Gatkine Pradip, Kotani Takayuki, Tamura Motohide, Currie Thayne, Kenchington Harry-Dean, Martin Guillermo, Perrin Guy
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引用次数: 0
Abstract
Photonic lanterns are waveguide devices enabling high throughput single mode
spectroscopy and high angular resolution. We aim to present the first on-sky
demonstration of a photonic lantern (PL) operating in visible light, to measure
its throughput and assess its potential for high-resolution spectroscopy of
compact objects. We used the SCExAO instrument (a double stage extreme AO
system installed at the Subaru telescope) and FIRST mid-resolution spectrograph
(R 3000) to test the visible capabilities of the PL on internal source and
on-sky observations. The best averaged coupling efficiency over the PL field of
view was measured at 51% +/- 10% with a peak at 80%. We also investigate the
relationship between coupling efficiency and the Strehl ratio for a PL,
comparing them with those of a single-mode fiber (SMF). Findings show that in
the AO regime, a PL offers better coupling efficiency performance than a SMF,
especially in the presence of low spatial frequency aberrations. We observed
Ikiiki (alpha Leo - mR = 1.37) and `Aua (alpha Ori - mR = -1.17) at a frame
rate of 200 Hz. Under median seeing conditions (about 1 arcsec measured in H
band) and large tip/tilt residuals (over 20 mas), we estimated an average light
coupling efficiency of 14.5% +/- 7.4%, with a maximum of 42.8% at 680 nm. We
were able to reconstruct both star's spectra, containing various absorption
lines. The successful demonstration of this device opens new possibilities in
terms of high throughput single-mode fiber-fed spectroscopy in the Visible. The
demonstrated on-sky coupling efficiency performance would not have been
achievable with a single SMF injection setup under similar conditions, partly
because the residual tip/tilt alone exceeded the field of view of a visible SMF
(18 mas at 700 nm). Thus emphasizing the enhanced resilience of PL technology
to such atmospheric disturbances. The additional
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