Model for estimating the penetration depth limit of the time-reversed ultrasonically encoded optical focusing technique
Abstract
The time-reversed ultrasonically encoded (TRUE) optical focusing technique is a method that is capable of focusing light deep within a scattering medium. This theoretical study aims to explore the depth limits of the TRUE technique for biological tissues in the context of two primary constraints – the safety limit of the incident light fluence and a limited TRUE's recording time (assumed to be 1 ms), as dynamic scatterer movements in a living sample can break the time-reversal scattering symmetry. Our numerical simulation indicates that TRUE has the potential to render an optical focus with a peak-to-background ratio of ~2 at a depth of ~103 mm at wavelength of 800 nm in a phantom with tissue scattering characteristics. This study sheds light on the allocation of photon budget in each step of the TRUE technique, the impact of low signal on the phase measurement error, and the eventual impact of the phase measurement error on the strength of the TRUE optical focus.
Additional Information
© 2014 Optical Society of America. Received 8 Jan 2014; revised 27 Feb 2014; accepted 27 Feb 2014; published 5 Mar 2014. We thank Mr. Roarke Horstmeyer for helpful discussions. This work is supported by NIH 1DP2OD007307-01. Benjamin Judkewitz is recipient of a Sir Henry Wellcome Fellowship from the Wellcome Trust.Attached Files
Published - oe-22-5-5787.pdf
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Additional details
- PMCID
- PMC4086332
- Eprint ID
- 45786
- Resolver ID
- CaltechAUTHORS:20140516-083523368
- NIH
- 1DP2OD007307-01
- Wellcome Trust
- Sir Henry Wellcome Fellowship
- Created
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2014-05-16Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field