Time stretch and its applications

Professor Jalali and collaborators from four continents publish a thorough review of the Time Stretch technology in Nature Photonics. The review article explains how Time Stretch overcomes the speed limitations of electronic digitizers and enables ultrafast...

Deep Learning Microscope

Prof. Bahram Jalali presented a keynote talk entitled “Deep Learning Microscope” at the The 7th International Multidisciplinary Conference on Optofluidics 2017 in Singapore. The talk described our group’s success in detection of cancer cells in blood...

Time stretch spectral shearing interferometry

Time stretch can be readily analysed by modelling the band-pass optical signals with low-pass complex envelopes. The transfer function of the dispersive element in the time-stretch system, H(ω), is mainly a phase propagator: in which ϕ(ω) is the phase profile of the...

Book on Artificial-Intelligence Microscope

Professor Jalali and his students Ata Mahjoubfar and Claire Chen have published a book that details the world’s fastest and most accurate AI-powered microscope for identification of biological cells. Used with a microfluidics chip, the microscope has proven...