Translation correlations in anisotropically scattering media
Abstract
Controlling light propagation across scattering media by wavefront shaping holds great promise for a wide range of communications and imaging applications. But, finding the right shape for the wavefront is a challenge when the mapping between input and output scattered wavefronts (that is, the transmission matrix) is not known. Correlations in transmission matrices, especially the so-called memory effect, have been exploited to address this limitation. However, the traditional memory effect applies to thin scattering layers at a distance from the target, which precludes its use within thick scattering media, such as fog and biological tissue. Here, we theoretically predict and experimentally verify new transmission matrix correlations within thick anisotropically scattering media, with important implications for biomedical imaging and adaptive optics.
Additional Information
© 2015 Macmillan Publishers Limited. Received 24 February 2015; Accepted 21 May 2015; Published online 29 June 2015. We thank I. Freund, R. Chen and M. Jang for discussions and for providing very helpful feedback on this manuscript. This work was supported by the German Research Foundation, DFG (EXC 257 NeuroCure), NIH 1DP2OD007307-01 and the Wellcome Trust (WT092197MA). Author contributions: B.J. and R.H. conceived and developed the idea with essential help from I.M.V. B.J. and I.N.P. performed experiments. B.J., R.H. and I.M.V. wrote the manuscript. R.H. and I.M.V. wrote the mathematical supplement with help from B.J. B.J. and C.Y. supervised the project.Attached Files
Submitted - 1411.7157v1.pdf
Supplemental Material - nphys3373-s1.pdf
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Additional details
- Eprint ID
- 57604
- Resolver ID
- CaltechAUTHORS:20150518-120647295
- EXC 257 NeuroCure
- Deutsche Forschungsgemeinschaft (DFG)
- 1DP2OD007307-01
- NIH
- WT092197MA
- Wellcome Trust
- Created
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2015-06-04Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field