An extended cavity diode-pumped femtosecond Yb: KGW laser for applications in optical DNA sensor technology based on fluorescence lifetime measurements
Optics Express, 2006•opg.optica.org
A reliable and power-scalable extended cavity diode-pumped passively mode-locked Yb:
KGW laser generating~ 200 fs long pulses at a repetition rate of 15 MHz was developed and
characterized. The laser delivered up to 150 mW of average power at fundamental
wavelength of 1040 nm, corresponding to a pulse energy of 10 nJ. The laser radiation was
frequency-doubled in a single pass configuration within a nonlinear BIBO crystal to produce
femtosecond green radiation at 520 nm with peak power of~ 200 W. The generated second …
KGW laser generating~ 200 fs long pulses at a repetition rate of 15 MHz was developed and
characterized. The laser delivered up to 150 mW of average power at fundamental
wavelength of 1040 nm, corresponding to a pulse energy of 10 nJ. The laser radiation was
frequency-doubled in a single pass configuration within a nonlinear BIBO crystal to produce
femtosecond green radiation at 520 nm with peak power of~ 200 W. The generated second …
A reliable and power-scalable extended cavity diode-pumped passively mode-locked Yb:KGW laser generating ~200 fs long pulses at a repetition rate of 15 MHz was developed and characterized. The laser delivered up to 150 mW of average power at fundamental wavelength of 1040 nm, corresponding to a pulse energy of 10 nJ. The laser radiation was frequency-doubled in a single pass configuration within a nonlinear BIBO crystal to produce femtosecond green radiation at 520 nm with peak power of ~200 W. The generated second harmonic served as excitation source for optical DNA biosensor based on fluorescence lifetime measurements obtained using the time-correlated single photon counting technique.
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