Development and characterization of a precisely adjustable fiber polishing arm

Michael P. Smith; Sabyasachi Chattopadhyay; Andrew Hauser; Joshua E. Oppor; Matthew A. Bershady; Marsha J. Wolf

doi:10.1117/12.2563201

13 December 2020 Development and characterization of a precisely adjustable fiber polishing arm

Michael P. Smith, Sabyasachi Chattopadhyay, Andrew Hauser, Joshua E. Oppor, Matthew A. Bershady, Marsha J. Wolf

Proceedings Volume 11451, Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation IV; 114516W (2020) https://doi.org/10.1117/12.2563201
Event: SPIE Astronomical Telescopes + Instrumentation, 2020, Online Only

Conference Poster

Abstract

The development of bare fiber or air-gapped microlens-fiber coupled Integral Field Units (IFUs) for astronomical applications requires careful treatment of the fiber end-faces (terminations). Previous studies suggest that minimization of fiber end face irregularity leads to better optical performance in terms of the diminishing effect of focal ratio degradation. Polishing has typically been performed using commercial rotary polishers with multiple gradually decreasing grit sizes. These polishers generally lack the ability to carefully adjust angular position and polishing force. Control of these parameters vastly help in getting a repeatable and controllable polish over a variety of glass/epoxy/metal matrices that make up integral filed units and fiber slits. A polishing arm is developed to polish the fiber terminations (IFU, mini- bundles and v-grooves) of the NIR Fiber System for the RSS spectrograph at SALT. The polishing arm angular adjustments ensure the correct position and orientation of each termination on the polishing surface during the polish. Various studies have indicated that the fiber focal ratio also degrades if the fiber end face comes under excessive stress. The polishing arm is fitted with a load cell to enable control of the polishing force. We have explored the minimal applicable end stress by applying different loads while polishing. The arm is modular to hold a variety of fiber termination styles. The polishing arm is also designed to access a fiber inspection microscope without removing the fiber termination from the arm. This enables inspection of the finish quality at various stages through polishing process.

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Michael P. Smith, Sabyasachi Chattopadhyay, Andrew Hauser, Joshua E. Oppor, Matthew A. Bershady, and Marsha J. Wolf "Development and characterization of a precisely adjustable fiber polishing arm", Proc. SPIE 11451, Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation IV, 114516W (13 December 2020); https://doi.org/10.1117/12.2563201

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