Optical fibers with interferometric path length stability by controlled
  heating for transmission of optical signals and as components in frequency
  standards

A. Peters; B. Beauvoir de; B.C. Young; C. Braxmaier; C. Braxmaier; C. Daussy; C. Gobby; F. Schmidt-Kaler; G. Wilpers; H. Müller; H. Müller; H. Müller; H. Müller; H. Müller; J. Ye; K. Imai; L.-S. Ma; M. Eichenseer; M. Notcutt; N. Lagakos; N. Shibata; R. Hughes; R.F.C. Vessot; R.W.P. Drever; S. Bize; S.A. Webster; T.P. Krisher; Th. Udem

research

Optical fibers with interferometric path length stability by controlled heating for transmission of optical signals and as components in frequency standards

Authors: A. Peters
B. Beauvoir de
B.C. Young
C. Braxmaier
C. Braxmaier
C. Daussy
C. Gobby
F. Schmidt-Kaler
G. Wilpers
H. Müller
H. Müller
H. Müller
H. Müller
H. Müller
J. Ye
K. Imai
L.-S. Ma
M. Eichenseer
M. Notcutt
N. Lagakos
N. Shibata
R. Hughes
R.F.C. Vessot
R.W.P. Drever
S. Bize
S.A. Webster
T.P. Krisher
Th. Udem
Publication date: 8 November 2005
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We present a simple method to stabilize the optical path length of an optical fiber to an accuracy of about 1/100 of the laser wavelength. We study the dynamic response of the path length to modulation of an electrically conductive heater layer of the fiber. The path length is measured against the laser wavelength by use of the Pound-Drever-Hall method; negative feedback is applied via the heater. We apply the method in the context of a cryogenic resonator frequency standard.Comment: Expanded introduction and outlook. 9 pages, 5 figure

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