Title :
Dynamic electrooptic frequency shifter for pulsed light signals
Author :
Farias, D.A. ; Eckstein, J.N.
Author_Institution :
Univ. of Illinois, Urbana, IL, USA
Abstract :
We report continuous frequency shifting of a train of mode-locked pulses of light by up to /spl plusmn/400 GHz using electrooptic frequency shifting (EOFS). Dynamic, continuous, and accurate shifting of the optical pulses is achieved by controlling the phase and power of a single frequency microwave signal in a traveling wave phase modulator structure. Operation of the device under different microwave power and optical pulse length settings was investigated in order to study spectral distortion predicted to occur at high levels of frequency shifting and when using long pulses. Possible techniques for future device improvement were proposed and preliminary tests were performed. The use of a second-harmonic component of the microwave drive signal leads to a longer region of constant amplitude gradient and results in reduced distortion.
Keywords :
electro-optical devices; laser mode locking; optical distortion; optical frequency conversion; optical modulation; optical phase shifters; optical pulse generation; phase modulation; electrooptic frequency shifter; microwave drive signals; mode-locked pulses; pulsed light signals; second-harmonic component; spectral distortion; travelling wave phase modulator; Frequency conversion; Microwave devices; Nonlinear distortion; Nonlinear optical devices; Nonlinear optics; Optical distortion; Optical frequency conversion; Optical pulses; Optical refraction; Phase modulation; Electrooptic devices; electrooptic frequency shifter (EOFS); lithium niobate; nonlinear optics; optical frequency conversion; optical planar waveguide components; traveling-wave devices;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2004.837954
