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V A Handerek

Showing results (1-10 of 16) with videos related to

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Applied Optics|August 21, 2010
Frequency-derived distributed optical-fiber sensing: Rayleigh backscatter analysisA J Rogers, V A Handerek
Applied Optics|March 18, 2008
Frequency-derived distributed optical-fiber sensing technique: theory and characterizationF Parvaneh, V A Handerek, A J Rogers
Optics Letters|October 28, 2009
Distributed optical-fiber sensing by four-photon mixing pulse walk-offJ Zhang, V A Handerek, A J Rogers
Optics Letters|September 10, 2009
Indium-coated D-shaped-fiber polarizerR B Dyott, J Bello, V A Handerek
Optics Letters|October 6, 2009
Distributed opticalfiber sensor for spatial location of mode coupling by using the optical Kerr effectI Cokgor, V A Handerek, A J Rogers
Optics Letters|October 14, 2009
Compact Mach-Zehnder fiber interferometer incorporating photoinduced gratings in elliptical-core fibersS E Kanellopoulos, V A Handerek, A J Rogers
Optics Letters|October 28, 2009
Simultaneous strain and temperature sensing with photogenerated in-fiber gratingsS E Kanellopoulos, V A Handerek, A J Rogers
Optics Letters|October 3, 2009
Frequency-derived remote measurement of birefringence in polarization-maintaining fiber by using the optical Kerr effectF Parvaneh, V A Handerek, A J Rogers
Applied Optics|March 21, 2008
Frequency-derived distributed optical-fiber sensing technique: theory and characterization-errataF Parvaneh, V A Handerek, A J Rogers
Optics Letters|March 1, 1997
Single-shot distributed optical-fiber temperature sensing by the frequency-derived techniqueF Parvaneh, M Farhadiroushan, V A Handerek, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Applied Optics|August 21, 2010
Frequency-derived distributed optical-fiber sensing: Rayleigh backscatter analysisA J Rogers, V A Handerek
Applied Optics|March 18, 2008
Frequency-derived distributed optical-fiber sensing technique: theory and characterizationF Parvaneh, V A Handerek, A J Rogers
Optics Letters|October 28, 2009
Distributed optical-fiber sensing by four-photon mixing pulse walk-offJ Zhang, V A Handerek, A J Rogers
Optics Letters|September 10, 2009
Indium-coated D-shaped-fiber polarizerR B Dyott, J Bello, V A Handerek
Optics Letters|October 6, 2009
Distributed opticalfiber sensor for spatial location of mode coupling by using the optical Kerr effectI Cokgor, V A Handerek, A J Rogers
Optics Letters|October 14, 2009
Compact Mach-Zehnder fiber interferometer incorporating photoinduced gratings in elliptical-core fibersS E Kanellopoulos, V A Handerek, A J Rogers
Optics Letters|October 28, 2009
Simultaneous strain and temperature sensing with photogenerated in-fiber gratingsS E Kanellopoulos, V A Handerek, A J Rogers
Optics Letters|October 3, 2009
Frequency-derived remote measurement of birefringence in polarization-maintaining fiber by using the optical Kerr effectF Parvaneh, V A Handerek, A J Rogers
Applied Optics|March 21, 2008
Frequency-derived distributed optical-fiber sensing technique: theory and characterization-errataF Parvaneh, V A Handerek, A J Rogers
Optics Letters|March 1, 1997
Single-shot distributed optical-fiber temperature sensing by the frequency-derived techniqueF Parvaneh, M Farhadiroushan, V A Handerek, et al.
Pageof 2