Intrinsically Photosensitive Retinal Ganglion Cells Evade Temporal Filtering to Encode Environmental Light Intensity | Zendy

Shai Sabbah | Zendy; Carin Papendorp | Zendy; Inbar Behrendt | Zendy; Hala Rasras | Zendy; Jesse Cann | Zendy; Megan L. Leyrer | Zendy; Elizabeth Koplas | Zendy; Marjo Beltoja | Zendy; Cameron Etebari | Zendy; Ali Noel Gunesch | Zendy; Luis Carrete | Zendy; Min Tae Kim | Zendy; Gabrielle Manoff | Zendy; Ananya Bhatia-Lin | Zendy; Tiffany Zhao | Zendy; Henry Dowling | Zendy; Kevin L. Briggman | Zendy; David M. Berson | Zendy

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Intrinsically Photosensitive Retinal Ganglion Cells Evade Temporal Filtering to Encode Environmental Light Intensity

Author(s) -

Shai Sabbah,

Carin Papendorp,

Inbar Behrendt,

Hala Rasras,

Jesse Cann,

Megan L. Leyrer,

Elizabeth Koplas,

Marjo Beltoja,

Cameron Etebari,

Ali Noel Gunesch,

Luis Carrete,

Min Tae Kim,

Gabrielle Manoff,

Ananya Bhatia-Lin,

Tiffany Zhao,

Henry Dowling,

Kevin L. Briggman,

David M. Berson

Publication year - 2022

Publication title -

ssrn electronic journal

Language(s) - English

Resource type - Journals

ISSN - 1556-5068

DOI - 10.2139/ssrn.4081521

Subject(s) - encode , light intensity , retinal , ganglion , intrinsically photosensitive retinal ganglion cells , intensity (physics) , retinal ganglion cell , neuroscience , retina , biology , computer science , artificial intelligence , microbiology and biotechnology , ophthalmology , medicine , optics , physics , genetics , gene

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