Development of a cold chopper for TAO/MIMIZUKU: cryogenic test

Michifuji, Tsubasa, Kamizuka, Takafumi, Miyata, Takashi , Jikuya, Ichiro , Uchida, Daichi , Kondo, Tomoya , Yamada, Katsuhiko , Honda, Mitsuhiko, Sako, Shigeyuki , Ohsawa, Ryou , Asano, Kentaro , Tachibana, Kengo , Iida, Hirokazu , Naruse, Akira C. , Sakon, Itsuki

Cold choppers are fast beam-switching tip-tilt mirrors installed in the cold optics of mid-infrared instruments. They enable chopping observations, required for ground-based mid-infrared observations to subtract the bright background radiation, without moving telescope mirrors. In the era of next-generation extremely large telescopes, the telescope mirrors cannot be moved due to the size. Therefore, cold choppers are a key technology for groundbased mid-infrared instruments for such large telescopes. In this study, we develop a prototype cold chopper for TAO/MIMIZUKU, the mid-infrared instrument for the TAO 6.5-m telescope, and evaluate the performance in a cryogenic environment at 20 K. It is confirmed that the prototype shows almost the same response as at room temperature and achieves 2-axis square-wave motion with an amplitude of 0.84 deg, a settling time of ∼40 ms, and a frequency of ≥2 Hz. The evaluated power dissipation is ∼5mW. Stability is found to be slightly worse than required (6 × 10−4 deg) due to mechanical vibration caused by the cryocooler used in the experiment. We plan to mount this chopper on MIMIZUKU to check the effects of such vibrations in the on-board environment.

Proceedings of the SPIE

Volume 12188

id. 121883G 9pp