Quantitative phase imaging (QPI) through random diffusers using a diffractive optical network @LightSciAppl @UCLAengineering @cnsiatucla @ECE_UCLA #QuantitativePhaseImaging #Holography #DiffractiveComputing

All-optical image denoising using a diffractive visual processor: @LightSciAppl @UCLAengineering @cnsiatucla @ECE_UCLA @kaanaksit #diffractivecomputing #diffractiveprocessors

Polarization multiplexed universal linear transformations through diffractive optical networks: @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #DiffractiveComputing #DiffractiveNetworks

Massively parallel universal linear transformations using a wavelength-multiplexed diffractive optical network @SPIEtweets @UCLAengineering @ECE_UCLA @cnsiatucla #deeplearning #diffractivecomputing #diffractivenetworks

Classification and reconstruction of spatially overlapping phase images using diffractive optical networks @UCLAengineering @cnsiatucla @SciReports.#DeepLearningOptics #DiffractiveComputing #DiffractiveNetworks

All-optical phase recovery and quantitative phase imaging performed instantly without a computer .@UCLAengineering @cnsiatucla @AdvOpticalMat #diffractivenetworks #diffractivecomputing.

Quantitative phase imaging without a computer .@MicroscopyViews @AdvOpticalMat @UCLAengineering @cnsiatucla @ECE_UCLA .#DiffractiveComputing #DiffractiveOpticalNetworks.

Snapshot multispectral imaging using a diffractive optical network: @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #diffractiveopticalnetworks #diffractivecomputing #deeplearningoptics.

All-Optical Phase Recovery: Diffractive Computing for Quantitative Phase Imaging (QPI) @AdvOpticalMat @UCLAengineering @ECE_UCLA @cnsiatucla.#DiffractiveOpticalNetworks #DiffractiveComputing #QuantitativePhaseImaging.

All-optical phase conjugation using diffractive wavefront processing @NatureComms @UCLAengineering @ECE_UCLA @cnsiatucla.#DiffractiveProcessors #DiffractiveComputing.

All-optical complex field imaging using diffractive processors: acquiring amplitude and phase information without digital processing @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #DiffractiveProcessors #DiffractiveComputing.

Performing a group of transformations through a diffractive network using polarization encoding: @LightSciAppl @UCLAengineering @ECE_UCLA @cnsiatucla #DiffractiveComputing #DiffractiveNetworks.

Universal Polarization Transformations Using Diffractive Visual Processors: @AdvSciNews @UCLAengineering @cnsiatucla @ECE_UCLA #DiffractiveComputing.