Alignment based on a no adjustment philosophy for the Immersion Grating Infrared Spectrometer (IGRINS)

Jeong-Yeol Han; In-Soo Yuk; Kyeongyeon Ko; Heeyoung Oh; Jakyoung Nah; Jae Sok Oh; Chan Park; Sungho Lee; Kang-Min Kim; Moo-Young Chun; Daniel T. Jaffe; Soojong Pak; Michael Gully-Santiago

doi:10.1117/12.981169

18 December 2012 Alignment based on a no adjustment philosophy for the Immersion Grating Infrared Spectrometer (IGRINS)

Jeong-Yeol Han, In-Soo Yuk, Kyeongyeon Ko, Heeyoung Oh, Jakyoung Nah, Jae Sok Oh, Chan Park, Sungho Lee, Kang-Min Kim, Moo-Young Chun, Daniel T. Jaffe, Soojong Pak, Michael Gully-Santiago

Author Affiliations +

Proceedings Volume 8550, Optical Systems Design 2012; 85501B (2012) https://doi.org/10.1117/12.981169
Event: SPIE Optical Systems Design, 2012, Barcelona, Spain

Abstract

IGRINS, the Immersion GRating INfrared Spectrometer includes an immersion grating made of silicon and observes both H-band (1.49~1.80 μm) and K-band (1.96~2.46 μm), simultaneously. In order to align such an infrared optical system, the compensator in its optical components has been adjusted within tolerances at room temperature without vacuum environment. However, such a system will ultimately operate at low temperature and vacuum with no adjustment mechanism. Therefore a reasonable relationship between different environmental variations such as room and low temperature might provide useful knowledge to align the system properly. We are attempting to develop a new process to predict the Wave Front Error (WFE), and to produce correct mechanical control values when the optical system is perturbed by moving the lens at room temperature. The purpose is to provide adequate optical performance without making changes at operating temperature. In other words, WFE was measured at operating temperature without any modification but a compensator was altered correctly at room temperature to meet target performance. The ‘no adjustment’ philosophy was achieved by deterministic mechanical adjustment at room temperature from a simulation that we developed. In this study, an achromatic doublet lens was used to substitute for the H and K band camera of IGRINS. This novel process exhibits accuracy predictability of about 0.002 λ rms WFE and can be applied to a cooled infrared optical systems.

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Jeong-Yeol Han, In-Soo Yuk, Kyeongyeon Ko, Heeyoung Oh, Jakyoung Nah, Jae Sok Oh, Chan Park, Sungho Lee, Kang-Min Kim, Moo-Young Chun, Daniel T. Jaffe, Soojong Pak, and Michael Gully-Santiago "Alignment based on a no adjustment philosophy for the Immersion Grating Infrared Spectrometer (IGRINS)", Proc. SPIE 8550, Optical Systems Design 2012, 85501B (18 December 2012); https://doi.org/10.1117/12.981169

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KEYWORDS

Mirrors

Infrared radiation

Spherical lenses

Infrared spectroscopy

Refractive index

Temperature metrology

Infrared imaging

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