Recently, 2D materials are in great demand for various applications such as optical devices,
supercapacitors, sensors, and biomedicine. MXenes as a kind of novel 2D material have …

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 to measure high repetition rate ultrafast processes cuts across multiple areas of
science. The last decade has seen tremendous advances in the development and …

The ability to rapidly assay morphological and intracellular molecular variations within large
heterogeneous populations of cells is essential for understanding and exploiting cellular …

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 …

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 …

Accelerating imaging speed in optical microscopy is often realized at the expense of image
contrast, image resolution and detection sensitivity–a common predicament for advancing …

We demonstrate an imaging system employing continuous high-rate photonically-enabled
compressed sensing (CHiRP-CS) to enable efficient microscopic imaging of rapidly moving …

Photonic time stretch is the key enabling technology for a wide variety of instruments with
unparalleled single‐shot data acquisition performance at high throughput and continuous …