Holographic imaging through turbid media using photorefraction

Author

Barry, N.P. ; Jones, R. ; Hyde, S.C.W. ; Dainty, J.C. ; French, P.M.W.

Author_Institution

Femtosecond Opt. Group, Imperial Coll. of Sci., Technol. & Med., London, UK

fYear

1997

fDate

35522

Firstpage

42430

Lastpage

42435

Abstract

A technique, based on photorefractive holography for imaging objects obscured by a diffusing medium has been implemented in the near infrared spectral region corresponding to the absorption minimum of biological tissue. Using ultrashort pulse illumination, depth resolved whole field images of three dimensional objects embedded in such a scattering medium have been obtained. The authors have investigated the use of bulk photorefractive crystals (Rh:BaTiO₃) and photorefractive multiple quantum well (MQW) devices as the hologram recording medium. Images have been obtained through up to 16 scattering mean free paths (mfp) using bulk Rh:BaTiO₃. The fast response time (<0.4 ms) of the MQW device allows recording of depth resolved images direct to video. An image has been obtained through 13 mfp with these devices

Keywords

holography; 0.4 ms; BaTiO₃:Rh; Rh:BaTiO₃; biological tissue absorption minimum; bulk photorefractive crystals; functional spectroscopic imaging; hologram recording medium; holographic imaging through turbid media; medical diagnostic imaging; near infrared spectral region; objects obscured by diffusing medium; photorefractive multiple quantum well devices; scattering mean free path; scattering medium;

fLanguage

English

Publisher

iet

Conference_Titel

Biomedical Applications of Photonics (Digest No. 1997/124), IEE Colloquium on

Conference_Location

London

Type

conf

DOI

10.1049/ic:19970679

Filename

643673