New Concepts for Operating Ring Laser Gyroscopes

A ring laser gyroscope (gyro) is an active laser interferometer designed to sense rotation through the Sagnac frequency shift encountered by two beams travelling in opposite directions around a closed path. The classes of devices considered in this thesis are the large and ultra-large ring laser gy...

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Main Author: Graham, Richard Douglas
Language:en
Published: University of Canterbury. Physics and Astronomy 2011
Subjects:
Online Access:http://hdl.handle.net/10092/5058
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spelling ndltd-canterbury.ac.nz-oai-ir.canterbury.ac.nz-10092-50582015-03-30T15:30:35ZNew Concepts for Operating Ring Laser GyroscopesGraham, Richard DouglasRing lasergyroscopelaserUG-3A ring laser gyroscope (gyro) is an active laser interferometer designed to sense rotation through the Sagnac frequency shift encountered by two beams travelling in opposite directions around a closed path. The classes of devices considered in this thesis are the large and ultra-large ring laser gyros. These instruments are designed for direct measurement of earth rotation rate and find applications in geodesy, geophysics, and tests of physical theories. The research presented in this thesis focuses on the demonstration of new techniques for operating ring laser gyros. The main goal of these techniques has been the correction for variations in the geometry of an ultra-large ring laser gyro, UG-3. This instrument is a 77 m perimeter ultra-large ring laser gyro of heterolithic construction and is the primary instrument used in the experiments presented here. UG-3 has been used to demonstrate measurement of earth strains which have been used to correct for changes in the geometry of the instrument. It has also been used to demonstrate a control technique where the co-rotating beams were alternately offset allowing the number of wavelengths around the perimeter to be counted and a Sagnac rotation signal to be obtained. Among the most important outcomes of this research of interest to the large ring laser gyro community is that we now understand most of the problems that would affect a next generation ring laser gyro. This understanding allows us to choose an operational technique best suited to the measurements being made and thus maximise the scientific potential of the instrument. Additionally, the development of a new standard for data storage and an associated suite of software to acquire, query and analyse ring laser data is expected to improve collaboration with the wider research community. Other research outcomes of more general interest include the analysis of how oscillation of a single mode is established in a high finesse laser cavity. We demonstrate that the ultimate mode of operation can be selected with a ‘seed’ beam of exceptionally low intensity. An interesting related outcome is the demonstration of Sagnac beat frequency measurement during the ring down of a ring cavity, a type of measurement immune to dispersive and flow related frequency shifts.University of Canterbury. Physics and Astronomy2011-01-20T00:24:23Z2011-01-20T00:24:23Z2010Electronic thesis or dissertationTexthttp://hdl.handle.net/10092/5058enNZCUCopyright Richard Douglas Grahamhttp://library.canterbury.ac.nz/thesis/etheses_copyright.shtml
collection NDLTD
language en
sources NDLTD
topic Ring laser
gyroscope
laser
UG-3
spellingShingle Ring laser
gyroscope
laser
UG-3
Graham, Richard Douglas
New Concepts for Operating Ring Laser Gyroscopes
description A ring laser gyroscope (gyro) is an active laser interferometer designed to sense rotation through the Sagnac frequency shift encountered by two beams travelling in opposite directions around a closed path. The classes of devices considered in this thesis are the large and ultra-large ring laser gyros. These instruments are designed for direct measurement of earth rotation rate and find applications in geodesy, geophysics, and tests of physical theories. The research presented in this thesis focuses on the demonstration of new techniques for operating ring laser gyros. The main goal of these techniques has been the correction for variations in the geometry of an ultra-large ring laser gyro, UG-3. This instrument is a 77 m perimeter ultra-large ring laser gyro of heterolithic construction and is the primary instrument used in the experiments presented here. UG-3 has been used to demonstrate measurement of earth strains which have been used to correct for changes in the geometry of the instrument. It has also been used to demonstrate a control technique where the co-rotating beams were alternately offset allowing the number of wavelengths around the perimeter to be counted and a Sagnac rotation signal to be obtained. Among the most important outcomes of this research of interest to the large ring laser gyro community is that we now understand most of the problems that would affect a next generation ring laser gyro. This understanding allows us to choose an operational technique best suited to the measurements being made and thus maximise the scientific potential of the instrument. Additionally, the development of a new standard for data storage and an associated suite of software to acquire, query and analyse ring laser data is expected to improve collaboration with the wider research community. Other research outcomes of more general interest include the analysis of how oscillation of a single mode is established in a high finesse laser cavity. We demonstrate that the ultimate mode of operation can be selected with a ‘seed’ beam of exceptionally low intensity. An interesting related outcome is the demonstration of Sagnac beat frequency measurement during the ring down of a ring cavity, a type of measurement immune to dispersive and flow related frequency shifts.
author Graham, Richard Douglas
author_facet Graham, Richard Douglas
author_sort Graham, Richard Douglas
title New Concepts for Operating Ring Laser Gyroscopes
title_short New Concepts for Operating Ring Laser Gyroscopes
title_full New Concepts for Operating Ring Laser Gyroscopes
title_fullStr New Concepts for Operating Ring Laser Gyroscopes
title_full_unstemmed New Concepts for Operating Ring Laser Gyroscopes
title_sort new concepts for operating ring laser gyroscopes
publisher University of Canterbury. Physics and Astronomy
publishDate 2011
url http://hdl.handle.net/10092/5058
work_keys_str_mv AT grahamricharddouglas newconceptsforoperatingringlasergyroscopes
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