Ultrastable heterodyne interferometer system using a CMOS modulated light camera

Patel, Rikesh and Achamfuo-Yeboah, Samuel and Light, Roger and Clark, Matt (2012) Ultrastable heterodyne interferometer system using a CMOS modulated light camera. Optics Express, 20 (16). pp. 17722-17733. ISSN 1094-4087

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A novel ultrastable widefield interferometer is presented. This uses a modulated light camera (MLC) to capture and stabilise the interferogram in the widefield heterodyne interferometer. This system eliminates the contribution of piston phase to the interferogram without the need for common path optics and results in a highly stable widefield interferometer. The MLC uses quadrature demodulation circuitry built into each pixel to demodulate the light signal and extract phase information using an electronic reference signal. In contrast to the work previously presented [Opt. Express 19, 24546 (2011)], the reference signal is derived from one of the pixels on board the MLC rather than an external source. This local reference signal tracks the instantaneous modulation frequency detected by the other pixels and eliminates the contribution of piston phase to the interferogram, substantially removing the contributions of unwanted vibrations and microphonics to the interferogram. Interferograms taken using the ultrastable system are presented with one of the interferometer mirrors moving at up to 85 mm s−1 over a variety of frequencies from 18 Hz to 20 kHz (giving a variation in optical path length of 220 μm, or 350 wavelengths at 62 Hz). This limit was the result of complex motion in the mirror mount rather than the stability limit of the system. The system is shown to be insensitive to pure piston phase variations equivalent to an object velocity of over 3 m s−1.

Item Type: Article
Schools/Departments: University of Nottingham UK Campus > Faculty of Engineering
Identification Number: https://doi.org/10.1364/OE.20.017722
Depositing User: Davies, Mrs Sarah
Date Deposited: 27 Mar 2014 12:01
Last Modified: 15 Sep 2016 16:38
URI: http://eprints.nottingham.ac.uk/id/eprint/2658

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