Add to ORKGA semiconductor low-noise, sub-100MHz repetition rate laser source is developed by time demultiplexing a harmonically mode-locked 2.56GHz, SCOWA-based mode-locked laser to the cavity fundamental frequency. The laser source is suitable for time-stretched photonic ADC. © 2009 Optical Society of America
The topic of this dissertation is the development of low repetition rate and low noise semiconductor...
Stabilized ultrafast mode-locked lasers are developed to generate ultralow noise optical frequency c...
We report a semiconductor-based, low-noise, 10.24 GHz actively mode-locked laser with 4.65 fs of rel...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
An alternative to the sub-100MHz repetition rate laser source is explored. A low noise SCOWA-based h...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
Recent experimental work on semiconductor-based harmonically mode-locked lasers geared toward low no...
We report the generation of optical pulse trains with 8.5 fs timing jitter (10 Hz to 10 MHz) from a ...
Recent experimental work on semiconductor-based harmonically mode-locked lasers geared toward low no...
We report the generation of optical pulse trains with 8.5 fs timing jitter (10 Hz to 10 MHz) from a ...
Monolithic high-repetition-rate lasers have drawn considerable attention for applications in photoni...
Mode-locked lasers producing femtosecond pulsesshow ultra-low timing jitter. Upon photo detection th...
A semiconductor based, low noise mode-locked laser with 195 10.24 GHz spaced stabilized optical freq...
Mode-locked laser designs for both time and frequency domain based applications are presented. It is...
A 37.6GHz pulse train is generated by a monolithic semiconductor mode-locked laser and subsequent pu...
The topic of this dissertation is the development of low repetition rate and low noise semiconductor...
Stabilized ultrafast mode-locked lasers are developed to generate ultralow noise optical frequency c...
We report a semiconductor-based, low-noise, 10.24 GHz actively mode-locked laser with 4.65 fs of rel...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
An alternative to the sub-100MHz repetition rate laser source is explored. A low noise SCOWA-based h...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
Recent experimental work on semiconductor-based harmonically mode-locked lasers geared toward low no...
We report the generation of optical pulse trains with 8.5 fs timing jitter (10 Hz to 10 MHz) from a ...
Recent experimental work on semiconductor-based harmonically mode-locked lasers geared toward low no...
We report the generation of optical pulse trains with 8.5 fs timing jitter (10 Hz to 10 MHz) from a ...
Monolithic high-repetition-rate lasers have drawn considerable attention for applications in photoni...
Mode-locked lasers producing femtosecond pulsesshow ultra-low timing jitter. Upon photo detection th...
A semiconductor based, low noise mode-locked laser with 195 10.24 GHz spaced stabilized optical freq...
Mode-locked laser designs for both time and frequency domain based applications are presented. It is...
A 37.6GHz pulse train is generated by a monolithic semiconductor mode-locked laser and subsequent pu...
The topic of this dissertation is the development of low repetition rate and low noise semiconductor...
Stabilized ultrafast mode-locked lasers are developed to generate ultralow noise optical frequency c...
We report a semiconductor-based, low-noise, 10.24 GHz actively mode-locked laser with 4.65 fs of rel...