Abstract
Warm or massive gas giant planets, brown dwarfs, and debris disks around nearby stars are now routinely observed by dedicated high-contrast imaging instruments on large, ground-based observatories. These facilities include extreme adaptive optics (ExAO) and state-of-the-art coronagraphy to achieve unprecedented sensitivities for exoplanet detection and spectral characterization. However, differential aberrations between the ExAO sensing path and the science path represent a critical limitation for the detection of giant planets with a contrast lower than a few $10^{-6}$ at very small separations (<0.3\as) from their host star. In our previous work, we proposed a wavefront sensor based on Zernike phase contrast methods to circumvent this issue and measure these quasi-static aberrations at a nanometric level. We present the design, manufacturing and testing of ZELDA, a prototype that was installed on VLT/SPHERE during its reintegration in Chile. Using the internal light source of the instrument, we performed measurements in the presence of Zernike or Fourier modes introduced with the deformable mirror. Our experimental and simulation results are consistent, confirming the ability of our sensor to measure small aberrations (<50 nm rms) with nanometric accuracy. We then corrected the long-lived non-common path aberrations in SPHERE based on ZELDA measurements. We estimated a contrast gain of 10 in the coronagraphic image at 0.2\as, reaching the raw contrast limit set by the coronagraph in the instrument. The simplicity of the design and its phase reconstruction algorithm makes ZELDA an excellent candidate for the on-line measurements of quasi-static aberrations during the observations. The implementation of a ZELDA-based sensing path on the current and future facilities (ELTs, future space missions) could ease the observation of the cold gaseous or massive rocky planets around nearby stars.
Highlights
Circumstellar disks and planetary companions around nearby stars are routinely observed on the ground by several facilities with exoplanet direct-imaging capabilities (e.g. Beuzit et al 2008; Macintosh et al 2008; Guyon et al 2010; Hinkley et al 2011; Skemer et al 2012; Close et al 2014)
We corrected the long-lived non-common path aberrations in SPHERE based on ZELDA measurements and estimated a contrast gain of 10 in the coronagraphic image at 0.2, reaching the raw contrast limit set by the coronagraph in the instrument
To achieve direct imaging and spectroscopy of companions orbiting nearby stars, these ground-based instruments rely on a combination of extreme adaptive optics (ExAO) system for the fine control of the wavefront errors that are due to atmospheric turbulence and optic imperfections, coronagraphy for starlight suppression, and dedicated observational strategies and postprocessing methods to retrieve the signal of the substellar mass companions
Summary
Circumstellar disks and planetary companions around nearby stars are routinely observed on the ground by several facilities with exoplanet direct-imaging capabilities (e.g. Beuzit et al 2008; Macintosh et al 2008; Guyon et al 2010; Hinkley et al 2011; Skemer et al 2012; Close et al 2014). To achieve direct imaging and spectroscopy of companions orbiting nearby stars, these ground-based instruments rely on a combination of extreme adaptive optics (ExAO) system for the fine control of the wavefront errors that are due to atmospheric turbulence and optic imperfections, coronagraphy for starlight suppression, and dedicated observational strategies and postprocessing methods to retrieve the signal of the substellar mass companions. With their near-infrared capabilities, these instruments can observe faint planetary-mass companions in thermal emission and study young or massive gaseous planets with contrast ratios down to 10−5−10−6 at 0.2−0.3 , corresponding to solar system scales for stars within 100 pc
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