Title :
Polarization- and mode-dependent anti-Stokes emission in a birefringent microstructure fiber
Author :
Hu, Ming-Lie ; Wang, Ching-Yue ; Li, Yan-Feng ; Wang, Zhuan ; Chai, Lu ; Zheltikov, A.M.
Author_Institution :
Ultrafast Laser Lab., Tianjin Univ., China
fDate :
3/1/2005 12:00:00 AM
Abstract :
We have studied the polarization dependence of frequency-upconversion of 35-fs pulses of 820-nm Ti : sapphire laser radiation in a birefringent microstructure fiber with a high air-filling-fraction cladding. The central wavelength of frequency-upconverted radiation and its transverse intensity profile are controlled in our experiments through a selective coupling of the pump field into higher order modes of the fiber and polarization-sensitive phase matching in parametric four-wave mixing, allowing the central wavelength of the anti-Stokes fiber output to be tuned and its transverse intensity profile to be modified by varying the polarization state of the input pump field.
Keywords :
birefringence; high-speed optical techniques; micro-optics; multiwave mixing; optical fibre cladding; optical fibre polarisation; optical frequency conversion; optical phase matching; optical tuning; 35 fs; 820 nm; Al2O3:Ti; Ti:sapphire laser radiation; air-filling-fraction cladding; birefringent microstructure fiber; central wavelength tuning; frequency upconversion; higher order modes; parametric four-wave mixing; phase matching; polarization-dependent antiStokes emission; transverse intensity profile; Birefringence; Centralized control; Fiber lasers; Four-wave mixing; Frequency conversion; Laser modes; Microstructure; Optical fiber polarization; Optical pulses; Pump lasers; Optical fiber fabrication; optical phase matching; optical propagation in nonlinear media; ultrafast optics;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.842359
