English

CHARA Array Delay Lines: Upgrades, Performance and Future Directions

Instrumentation and Methods for Astrophysics 2026-02-19 v1 Solar and Stellar Astrophysics

Abstract

Long baseline optical and infrared interferometric arrays achieve high angular resolution and enable detailed astrophysical measurements. Interferometers have enabled observations of stars at various stages of evolution, as well as studies of binary stars, circumstellar disks, and active galactic nuclei. The CHARA Array is a long-baseline interferometric array at the Mount Wilson Observatory, USA. At the core of CHARA operations are the delay lines, which equalize the optical path length for all telescopes as the Earth rotates and compensate for optical path variations induced by atmospheric turbulence. We report recent upgrades and performance of the CHARA Array optical delay lines for high-precision interferometric observations. The legacy system had been operational for over two decades, and it was increasingly difficult to acquire replacement parts. Beginning in mid-2021, the control system underwent a major upgrade, replacing the aging VME-based architecture with a modern hybrid FPGA and Linux-based system; this modernization continued through the end of 2024. We describe hardware/software changes, the servo architecture, and lab/on-sky performance. The upgraded system achieves residual delay line cart tracking errors of 12\sim12~nm, the same level as the legacy system, and a control bandwidth of 100-130~Hz, allowing fringe tracking across the R, H, and K bands. Initial commissioning revealed key issues such as metrology time-tick jitter and vibration-induced visibility loss, which were diagnosed and resolved. We note ongoing and future efforts to extend baselines up to 1~km and support advanced observing modes such as dual-field interferometry and nulling. This paper is a reference for current and future use of the CHARA Array and for next-generation instrument design.

Keywords

Cite

@article{arxiv.2602.16009,
  title  = {CHARA Array Delay Lines: Upgrades, Performance and Future Directions},
  author = {Narsireddy Anugu and Nils H. Turner and Theo A. ten Brummelaar and Gail H. Schaefer and Philippe Bério and Christopher D. Farrington and Becky Flores and Douglas R. Gies and Stefan Kraus and Edgar R. Ligon and Olli Majoinen and John D. Monnier and Denis Mourard and Nicholas J. Scott and Norman L. Vargas},
  journal= {arXiv preprint arXiv:2602.16009},
  year   = {2026}
}

Comments

Accepted for publication in SPIE Journal of Astronomical Telescopes, Instruments, and Systems (JATIS). 33 pages, 17 figures

R2 v1 2026-07-01T10:40:35.751Z