Title :
Hybrid analog-digital variable fiber-optic delay line
Author :
Riza, Nabeel A. ; Arain, Muzammil A. ; Khan, Sajjad A.
Author_Institution :
Sch. of Opt./Center for Res. & Educ. in Opt. & Lasers, Univ. of Central Florida, Orlando, FL, USA
Abstract :
A variable fiber-optic delay line (VFODL) is introduced that, to the best of the authors´ knowledge, is the first time that a hybrid analog-digital VFODL is proposed to solve the dilemma of efficiently enabling many settable and long-duration time delays together with continuous and short time delays. In essence, this VFODL can provide near-continuous high-resolution time generation across an entire long-time-delay band. The VFODL is based on the concept of cascaded wavelength-sensitive and wavelength-insensitive time delays. A proof-of-concept VFODL built demonstrates near-continuous 0.5-ps-resolution time-delay control across an entire 25.6-ns time-delay band generating a total of 51 200 measurable time-delay bins. The experimental VFODL also gives a 4.95-dB total optical loss and a 1-ms time-delay control-setting speed. The proposed VFODL can be used in applications such as radio frequency photonic signal processing and radar testing.
Keywords :
Bragg gratings; analogue-digital conversion; delays; optical communication equipment; optical delay lines; optical design techniques; optical fibre losses; 0.5 ps; 1 ms; 25.6 ns; 4.95 dB; VFODL; analog-digital variable fiber-optic delay line; cascaded wavelength-insensitive time delays; cascaded wavelength-sensitive time delays; control-setting speed; long-time-delay band; optical loss; proof-of-concept; Analog-digital conversion; Delay effects; Delay lines; Optical control; Optical losses; Optical signal processing; Radar applications; Radar signal processing; Radio frequency; Wavelength measurement;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2004.824383
