Our work about the high-throughput single-microparticle imaging flow analyzer has been published in PNAS online and covered in UCLA Newsroom and PNAS’s Highlights. The technology can take a picture of every single cell in a microfluidic channel with a record...
Nature photonics (January 2013): Stochastically driven nonlinear processes are responsible for spontaneous pattern formation and instabilities in numerous natural and artificial systems, including well-known examples such as sand ripples, cloud formations, water...
Nature photonics (January 2013): Dispersive Fourier transformation is an emerging measurement technique that overcomes the speed limitations of traditional optical instruments and enables fast continuous single-shot measurements in optical sensing, spectroscopy and...
