Reference-less wavefront shaping in a Hopfield-like rough intensity landscape
, 2023 Marco Leonetti +2 more
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Advances in cardiac devices and bioelectronics augmented with artificial intelligence
The Journal of Physiology, EarlyView.Abstract figure legend Interfaces between the human heart, diagnostic bioelectronics, artificial intelligence, and clinical care. From left to right: Human heart and biosensor interface; representative waveforms of common diagnostic bioelectronic sensing modalities.
Charles Stark +3 more
wiley +1 more source
Optical correction in excised cataractous crystalline lenses by using wavefront shaping techniques. [PDF]
Biomed Opt ExpressArtal P +4 more
europepmc +1 more source
Optical reciprocity induced wavefront shaping for axial and lateral shifting of focus through a scattering medium. [PDF]
Sci Rep, 2022 Sanjeev A, Trivedi V, Zalevsky Z.
europepmc +1 more source
The Journal of Physiology, EarlyView.Abstract figure legend Schematic overview of the experimental and computational framework for investigating hiPSC‐CM electrophysiology with MEA systems. The MEA‐based model integrates experimental data with phenotype‐specific ionic models and tissue‐level heterogeneity.
Sofia Botti +2 more
wiley +1 more source
Optimizing fluorescence imaging through scattering media using structured light-assisted wavefront shaping. [PDF]
iScienceRumman N +7 more
europepmc +1 more source
Confocal 3D reflectance imaging through multimode fiber without wavefront shaping. [PDF]
Optica, 2022 Lee SY, Parot VJ, Bouma BE, Villiger M.
europepmc +1 more source
Subsurface spectroscopy of heterogeneous materials using optical wavefront shaping
, 2023 Benjamin R. Anderson +2 more
openalex +2 more sources
Wavefront shaping with a tunable metasurface: Creating cold spots and coherent perfect absorption at arbitrary frequencies [PDF]
, 2020 Benjamin W. Frazier +3 more
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