Title :
Enhanced Self-Phase Modulation Enables a 700–900 nm Linear Compressible Continuum for Multicolor Two-Photon Microscopy
Author :
Xiaobao Liang ; Ling Fu
Author_Institution :
Britton Chance Center for Biomed. Photonics, Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
The spectral band of 100-fs pulses limits its simultaneous and efficient excitation in multicolor two-photon microscopy. By pumping the pulses from the 100-fs Ti:Sapphire oscillator through the highly nonlinear photonic crystal fiber, we demonstrate that a 700-900 nm linear compressible continuum can be generated due to enhanced self-phase modulation. Such a continuum is linearly compressed to 57 fs at the objective focus by a grating pair. The two-photon imaging of three-color labeled bovine pulmonary artery endothelial cells shows that the compressed continuum not only simultaneously excites the three fluorescent dyes, but also enhances the signal over 20 times compared with that of uncompressed case. This study shows its potential to promote the fluorescence signal level by using fiber continuum in multicolor two-photon microscopy.
Keywords :
biomedical optical imaging; blood vessels; cellular biophysics; dyes; fluorescence; holey fibres; optical microscopy; optical pumping; oscillators; photonic crystals; self-phase modulation; two-photon processes; Al2O3:Ti; Ti:sapphire oscillator; fiber continuum; fluorescence signal level; fluorescent dyes; highly nonlinear photonic crystal fiber; linear compressible continuum; multicolor two-photon microscopy; self-phase modulation; spectral band; three-color labeled bovine pulmonary artery endothelial cells; time 100 fs; time 57 fs; two-photon imaging; wavelength 700 nm to 900 nm; Biomedical image processing; Biophotonics; Microscopy; Nonlinear fiber optics; Biomedical imaging; biophotonics; nonlinear fiber optics; optical microscopy; supercontinuum generation;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2013.2253449
