Observing non-repetitive and statistically rare signals that occur on short timescales requires
fast real-time measurements that exceed the speed, precision and record length of …

Dispersive Fourier transformation is an emerging measurement technique that overcomes
the speed limitations of traditional optical instruments and enables fast continuous single …

The need for imaging and ranging in robotics has brought LiDAR (light detection and
ranging) to the forefront of consumer technology. Among various approaches, time-of-flight …

Manipulation and characterization of information using ultrafast optical signals is critical for
numerous applications in telecommunications, biology, quantum information science …

Optical time-stretch imaging enables the continuous capture of non-repetitive events in real
time at a line-scan rate of tens of MHz—a distinct advantage for the ultrafast dynamics …

Breathtaking innovations in optical imaging have opened new exciting avenues for science,
industry, and medicine over the last few decades. One of such innovations is optical time …

Real‐time investigation in mode‐locked fiber lasers (MLFLs) is important to understand the
ultrafast dynamics before, during, and after the formation of stable laser pulses. However …

Carbon nanotube (CNT) can work as excellent saturable absorber (SA) due to its
advantages of fast recovery, low saturation intensity, polarization insensitivity, deep …

Mode-locking lasers have not only produced huge economic benefits in industrial fields and
scientific research, but also provided an excellent platform to study diverse soliton …

Optical imaging is arguably the most effective tool to visualize living cells with high
spatiotemporal resolution and in a nearly noninvasive manner. Driven by this capability …