We describe the amplitude and resolution trends of the signals acquired by turbidity suppression through optical phase conjugation (TSOPC) with samples that span the ballistic and diffusive scattering regimes. In these experiments, the light field scattered through a turbid material is written into a hologram, and a time-reversed copy of the light field is played back through the sample. In this manner, the wavefront originally incident on the sample is reconstructed. We examine a range of scattering samples including chicken breast tissue sections of increasing thickness and polyacrylamide tissue-mimicking phantoms with increasing scattering coefficients. Our results indicate that only a small portion of the scattered wavefront (<0.02%) ...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
International audienceWe show that phase-conjugation by three-wave mixing allows turbidity suppressi...
Light scattering poses significant challenges for biomedical optical imaging techniques. Diffuse sc...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
Turbidity Suppression via Optical Phase Conjugation (TS-OPC) is an optical phenomenon that uses the...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
International audienceWe show that phase-conjugation by three-wave mixing allows turbidity suppressi...
Light scattering poses significant challenges for biomedical optical imaging techniques. Diffuse sc...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
Turbidity Suppression via Optical Phase Conjugation (TS-OPC) is an optical phenomenon that uses the...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
International audienceWe show that phase-conjugation by three-wave mixing allows turbidity suppressi...
Light scattering poses significant challenges for biomedical optical imaging techniques. Diffuse sc...
Add to ORKG