Desktop version

Home arrow Communication arrow Fiber-optic Fabry-Perot sensors an introduction



  • 1. Udd, E. 2002. Overview of Fiber Optic Sensors (Vol. 1). New York: Marcel Dekker.
  • 2. Lu, E., Ran, Z., Peng, F., Liu, Z., and Xu, F. 2012. Demodulation of micro fiber-optic Fabry-Perot interferometer using subcarrier and dualwavelength method. Optics Communications, 285(6), 1087-1090.
  • 3. Murphy, K. A., Gunther, M. F., Vengsarkar, A. M., and Claus, R. O. 1991. Quadrature phase-shifted, extrinsic Fabry-Perot optical fiber sensors. Optics Letters, 16(4), 273-275.
  • 4. Potter, J., Ezbiri, A., and Tatam, R. P. 1997. A broad band signal processing technique for miniature low-finesse Fabry-Perot interferometric sensors. Optics Communications, 140(1), 11-14.
  • 5. Furstenau, N. and Schmidt, M. 1998. Interferometer vibration sensor with two-wavelength passive quadrature readout. IEEE Transactions on Instrumentation and Measurement, 47(1), 143-147.
  • 6. Lo, Y. L., Sirkis, J. S., and Chang, C. C. 1997. Passive signal processing of in-line fiber etalon sensors for high strain-rate loading. Journal of Lightwave Technology, 15(8), 1578-1586.
  • 7. Schmidt, M. and Furstenau, N. 1999. Fiber-optic extrinsic Fabry-Perot interferometer sensors with three-wavelength digital phase demodulation. Optics Letters, 24(9), 599-601.
  • 8. Taylor, H. F. 2002. Fiber optic sensors based upon the Fabry-Perot interferometer. Fiber Optic Sensors, 20020456.
  • 9.
  • 10.
  • 11. Davis, M. A. and Kersey, A. D. 1995. Application of a fiber Fourier transform spectrometer to the detection of wavelength-encoded signals from Bragg grating sensors. Journal of Lightwave Technology, 13(7), 1289-1295.
  • 12.
  • 13. Kersey, A. D., Berkoff, T. A., and Morey, W. W. 1993. Multiplexed fiber Bragg grating strain-sensor system with a fiber Fabry-Perot wavelength filter. Optics Letters, 18(16), 1370-1372.
  • 14.
  • 15.
  • 16. Bhatia, V., Sen, M. B., Murphy, K. A., and Claus, R. O. 1996. Wavelength-tracked white light interferometry for highly sensitive strain and temperature measurements. Electronics Letters, 32(3), 247-249.
  • 17. Qi, B., Pickrell, G. R., Xu, J., Zhang, P., Duan, Y., Peng, W. et al. 2003. Novel data processing techniques for dispersive white light interferometer. Optical Engineering, 42(11), 3165-3171.
  • 18. Jiang, Y. 2008. High-resolution interrogation technique for fiber optic extrinsic Fabry-Perot interferometric sensors by the peak-to-peak method. Applied Optics, 47(7), 925-932.
  • 19. Huang, H. 2006. Data interrogation for Fabry-Perot white light interferometry. In Smart Structures and Materials (pp. 617419-617419), San Diego, CA. International Society for Optics and Photonics.
  • 20. Han, M., Zhang, Y., Shen, F., Pickrell, G. R., and Wang, A. 2004. Signal-processing algorithm for white-light optical fiber extrinsic Fabry-Perot interferometric sensors. Optics Letters, 29(15), 1736-1738.
  • 21. Takeda, M., Ina, H., and Kobayashi, S. 1982. Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry. JOSA, 72(1), 156-160.
  • 22. Liu, T. and Fernando, G. F. 2000. A frequency division multiplexed low- finesse fiber optic Fabry-Perot sensor system for strain and displacement measurements. Review of Scientific Instruments, 71(3), 1275-1278.
  • 23. Boulet, C., Hathaway, M., and Jackson, D. A. 2004. Fiber-optic-based absolute displacement sensors at 1500 nm by means of a variant of channeled spectrum signal recovery. Optics Letters, 29(14), 1602-1604.
  • 24. Shen, F. and Wang, A. 2005. Frequency-estimation-based signalprocessing algorithm for white-light optical fiber Fabry-Perot interferometers. Applied Optics, 44(25), 5206-5214.
  • 25. Majumdar, A. and Huang, H. 2008. Development of an in-fiber white-light interferometric distance sensor for absolute measurement of arbitrary small distances. Applied Optics, 47(15), 2821-2828.
  • 26. Yu, Z. and Wang, A. 2015. Fast white light interferometry demodulation algorithm for low-finesse Fabry-Perot sensors. IEEE Photonics Technology Letters, 27(8), 817-820.
  • 27. Zhou, X. and Yu, Q. 2011. Wide-range displacement sensor based on fiber-optic Fabry-Perot interferometer for subnanometer measurement. IEEE Sensors Journal, 11(7), 1602-1606.
  • 28. Jiang, Y. 2008. Fourier transform white-light interferometry for the measurement of fiber-optic extrinsic Fabry-Perot interferometric sensors. IEEE Photonics Technology Letters, 2(20), 75-77.
  • 29. Beheim, G. 1985. Remote displacement measurement using a passive interferometer with a fiber-optic link. Applied Optics, 24(15), 2335-2340.
  • 30. Choi, H. S., Taylor, H. F., and Lee, C. E. 1997. High-performance fiber-optic temperature sensor using low-coherence interferometry. Optics Letters, 22(23), 1814-1816.
  • 31. Lee, C. E. and Taylor, H. F. 1991. Fiber-optic Fabry-Perot temperature sensor using a low-coherence light source. Journal of Lightwave Technology, 9(1), 129-134.
  • 32. Chen, S., Grattan, K. T. V., Meggitt, B. T., and Palmer, A. W. 1993. Instantaneous fringe-order identification using dual broadband sources with widely spaced wavelengths. Electronics letters, 29(4), 334-335.
  • 33. Rao, Y. J., Jiang, J., and Zhou, C. X. 2005. Spatial-frequency multiplexed fiber-optic Fizeau strain sensor system with optical amplification. Sensors and Actuators A: Physical, 120(2), 354-359.
  • 34. Zhou, C. X., Rao, Y. J., and Jiang, J. 2005. A coarse wavelength-division-multiplexed extrinsic fiber Fabry-Perot sensor system. In Photonics Asia 2004 (pp. 219-224), Beijing, China. International Society for Optics and Photonics.
  • 35. Rao, Y. J., Zhou, C. X., and Zhu, T. 2005. SFDM/CWDM of fiberoptic Fizeau strain sensors. IEEE Photonics Technology Letters, 17(6), 1259-1261.
  • 36. Lee, C. E. and Taylor, H. F. 1988. Interferometric optical fibre sensors using internal mirrors. Electronics Letters, 24(4), 193-194.
  • 37. Cibula, E. and Donlagic, D. 2007. In-line short cavity Fabry-Perot strain sensor for quasi distributed measurement utilizing standard OTDR. Optics Express, 15(14), 8719-8730.
  • 38. Huang, J., Hua, L., Lan, X., Wei, T., and Xiao, H. 2013. Microwave assisted reconstruction of optical interferograms for distributed fiber optic sensing. Optics Express, 21(15), 18152-18159.
  • 39. Davis, C. M., Zarobila, C. J., and Rand, J. D. 1988. Fiber-optic temperature sensor for microwave environments. In 1988 Los Angeles SymposiumOE/LASE’88 (pp. 114-119), Los Angeles, CA. International Society for Optics and Photonics.
  • 40. Tuck, C. J. and Fernando, G. F. 1999. Multiplexed optical fiber Fabry- Perot sensors for strain metrology. In 1999 Symposium on Smart Structures and Materials, Newport Beach, CA (pp. 322-329). International Society for Optics and Photonics.
  • 41. Kaddu, S. C., Collins, S. F., and Booth, D. J. 1999. Multiplexed intrinsic optical fibre Fabry-Perot temperature and strain sensors addressed using white-light interferometry. Measurement Science and Technology, 10(5), 416.
Found a mistake? Please highlight the word and press Shift + Enter  
< Prev   CONTENTS   Next >