Add to ORKGInternational audienceIn this paper we present results of real-time imaging through biological tissues by means of nonlinear three-wave mixing phase conjugation process. Biological tissues with thicknesses up to 5 mm are used and the imaging process is performed at a near infrared wavelength included in the therapeutic window. Furthermore we show that real-time compensation of turbidity of biological tissues allowed with this method can be applied to scattering media in motion, with a significant improvement of the signal to noise ratio and resolution of the restored images
The deterministic nature of scattering in turbid media and the advances in light control have opened...
International audienceDiffuse scattering can prevent high-resolution imaging in thick biological med...
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...
Optical Phase Conjugation is a non-linear optical phenomenon that generates a phase conjugate replic...
The possibility of scattering suppression effect for biological tissues based on the implementation...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
We demonstrate a method for phase conjugating fluorescence. Our method, called reference free digita...
Ultrafast turbidity compensation in the optical therapeutic window by three-wave mixing phase conjug...
In biological applications, optical focusing is limited by the diffusion of light, which prevents fo...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
Optical microscopy has been widely used in the life sciences and biological research for several dec...
The deterministic nature of scattering in turbid media and the advances in light control have opened...
International audienceDiffuse scattering can prevent high-resolution imaging in thick biological med...
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...
Optical Phase Conjugation is a non-linear optical phenomenon that generates a phase conjugate replic...
The possibility of scattering suppression effect for biological tissues based on the implementation...
We describe the amplitude and resolution trends of the signals acquired by turbidity suppression thr...
We recently demonstrated that it is possible to use optical phase conjugation as a means to time re...
Elastic optical scattering, the dominant light-interaction process in biological tissues, prevents t...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...
We demonstrate a method for phase conjugating fluorescence. Our method, called reference free digita...
Ultrafast turbidity compensation in the optical therapeutic window by three-wave mixing phase conjug...
In biological applications, optical focusing is limited by the diffusion of light, which prevents fo...
We present a holography-based in vivo optical phase conjugation experiment performed on a living rab...
Optical microscopy has been widely used in the life sciences and biological research for several dec...
The deterministic nature of scattering in turbid media and the advances in light control have opened...
International audienceDiffuse scattering can prevent high-resolution imaging in thick biological med...
Light scattering in biological tissue significantly limits the accessible depth for localized optica...