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Real-time frequency-encoded spatiotemporal focusing through scattering media using a programmable 2D ultrafine optical frequency comb

Xiaoming Wei, Yuecheng Shen, Joseph C. Jing, Ashton S. Hemphill, Changsheng Yang, Shanhui Xu, Zhongmin Yang, Lihong V. Wang

2020Science Advances57 citationsDOIOpen Access PDF

Abstract

Optical wavefront shaping is a powerful tool for controlling photons in strongly scattering media. Its speed, however, has been the bottleneck for in vivo applications. Moreover, unlike spatial focusing, temporal focusing from a continuous-wave source has rarely been exploited yet is highly desired for nonlinear photonics. Here, we present a novel real-time frequency-encoded spatiotemporal (FEST) focusing technology. FEST focusing uses a novel programmable two-dimensional optical frequency comb with an ultrafine linewidth to perform single-shot wavefront measurements, with a fast single-pixel detector. This technique enables simultaneous spatial and temporal focusing at microsecond scales through thick dynamic scattering media. This technology also enabled us to discover the large-scale temporal shift, a new phenomenon that, with the conventional spatial memory effect, establishes a space-time duality. FEST focusing opens a new avenue for high-speed wavefront shaping in the field of photonics.

Topics & Concepts

Optical frequency combOpticsScatteringSpatial frequencyLight scatteringOptoelectronicsMaterials scienceComputer sciencePhysicsLaserRandom lasers and scattering mediaAdvanced Fiber Laser TechnologiesAdvanced Optical Sensing Technologies
Real-time frequency-encoded spatiotemporal focusing through scattering media using a programmable 2D ultrafine optical frequency comb | Litcius