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Optical and Quantum Electronics
Published in: Optical and Quantum Electronics 12/2013

01-12-2013

Use of copper-coated fiber as a tunable optical time-delay line in precise timing systems

Authors: Uros Dragonja, Jurij Tratnik, Bostjan Batagelj

Published in: Optical and Quantum Electronics | Issue 12/2013

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Abstract

In this paper we present a novel, time-delay approach using a copper-coated fiber. Piezo optical-fiber stretchers and temperature-controlled fiber spools are normally used for a conventional time-delay lines. A copper-coated fiber preserves the performance of a standard single-mode optical fiber, while at the same time acting as an electrical wire, which can be effectively heated by applying an electrical current. As a result of the significant temperature change, the signal (group) delay can be properly adjusted and controlled. Compared to piezo optical-fiber stretchers and temperature-controlled fiber spools, much shorter lengths of fiber are required and a faster response time can be achieved. This paper also proposes a simple, lumped thermal model and thus a copper-coated fiber can be included in the heat-transfer and response-time calculations of a realistic system that involves surrounding elements (e.g., heatsinks).
next article Improvement of Raman amplifier bandwidth by means of slow light in photonic crystal based waveguide structure

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Footnotes
1
If the input electrical signal has a sine wave form of low frequency, the optical group delay changes with the same frequency. The frequency of the input signal where the aplitude of the optical group delay falls to one half is considered to be the bandwidth.
 
2
Time required for the temperature to rise from 10 to 90 % or to fall from 90 to 10 % of its maximum value (Levine 1996).
 
Literature
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Hartog, A.H., et al.: Variation of pulse delay with stress and temperature in jacketed and unjacketed optical fibres. Opt. Quantum Elect. 11, 265–273 (1979)ADSCrossRef
Kothandaraman, C.P.: Fundamentals of Heat and Mass Transfers, 203–207. New Age International Pvt Ltd Publishers, New Delhi (2006)
Levine, W.S.: The control handbook, 1548. CRC Press, Boca Raton (1996)
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Rathore, M.M.: Engineering Heat Transfer, 104–179, 23–24. Jones & Bartlett Publishers, Sudbury (2010)
Tratnik, J., et al.: Fiber length compensated transmission of 2998.01 MHz RF signal with femtosecond precision. Microw. Opt. Technol. Lett. 53(7), 1553–1555 (2011)CrossRef
Metadata
Title
Use of copper-coated fiber as a tunable optical time-delay line in precise timing systems
Authors
Uros Dragonja
Jurij Tratnik
Bostjan Batagelj
Publication date
01-12-2013
Publisher
Springer US
Published in
Optical and Quantum Electronics / Issue 12/2013
Print ISSN: 0306-8919
Electronic ISSN: 1572-817X
DOI
https://doi.org/10.1007/s11082-013-9743-8

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