Title :
Time-gated techniques for biological imaging
Author :
Duncan, M.D. ; Reintjes, J. ; Bashkansky, M. ; Moon, J.A. ; Tankersley, L.L.
Author_Institution :
Laser Phys. Branch, Naval Res. Lab., Washington, DC, USA
Abstract :
Discusses various studies performed at the Naval Research Laboratory related to optical imaging in turbid media. Those studies have concentrated on time-gated imaging using light in both the ballistic and diffuse scattering regimes. In the ballistic regime the authors utilized a high-gain Raman amplifier to achieve diffraction limited imaging through 33 scattering lengths of a highly turbid material. Coherence-gated imaging experiments were also performed in this regime using Raman techniques, and the authors discuss current work that uses low-coherence interferometry to image structural defects in a variety of highly scattering materials. In the diffuse scattering regime, the authors present theoretical and experimental results that were obtained for time-gated light propagating in the full diffusion limit, and also in a regime they have termed quasidiffuse. Spatial-resolution limitations are discussed for both cases
Keywords :
biological techniques; image resolution; light coherence; light interferometry; light propagation; light scattering; optical images; turbidity; Naval Research Laboratory; ballistic regime; biological imaging; coherence-gated imaging experiments; diffraction limited imaging; diffuse scattering regime; high-gain Raman amplifier; highly scattering materials; low-coherence interferometry; scattering length; structural defects imaging; time-gated techniques; turbid media optical imaging; Light scattering; Optical amplifiers; Optical diffraction; Optical imaging; Optical interferometry; Optical materials; Optical propagation; Optical scattering; Raman scattering; Stimulated emission;
Conference_Titel :
Lasers and Electro-Optics Society Annual Meeting, 1998. LEOS '98. IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-4947-4
DOI :
10.1109/LEOS.1998.739541
