Scattering compensation by focus scanning holographic aberration probing (F-SHARP)

Tools

Item Type:	Article
Title:	Scattering compensation by focus scanning holographic aberration probing (F-SHARP)
Creators Name:	Papadopoulos, I.N., Jouhanneau, J.S., Poulet, J.F.A. and Judkewitz, B.
Abstract:	A long-standing goal in biomedical imaging, the control of light inside turbid media, requires knowledge of how the phase and amplitude of an illuminating wavefront are transformed as the electric field propagates inside a scattering sample onto a target plane. So far, it has proved challenging to non-invasively characterize the scattered optical wavefront inside a disordered medium. Here, we present a non-invasive scattering compensation method, termed F-SHARP, which allows us to measure the scattered electric-field point spread function (E-field PSF) in three dimensions. Knowledge of the phase and amplitude of the E-field PSF makes it possible to optically cancel sample turbulence. We demonstrate the imaging capabilities of this technique on a variety of samples and notably through vertebrate brains and across thinned skull in vivo.
Keywords:	Adaptive Optics, Biophotonics, Imaging and Sensing, Multiphoton Microscopy, Animals, Mice
Source:	Nature Photonics
ISSN:	1749-4885
Publisher:	Nature Publishing Group
Volume:	11
Number:	2
Page Range:	116-123
Date:	February 2017
Additional Information:	Copyright © 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.
Official Publication:	https://doi.org/10.1038/nphoton.2016.252
External Fulltext:	View full text on external repository or document server

Repository Staff Only: item control page