Koji YODEN, Masato OHMI, Yasuhito OHNISHI, Naomi KUNIZAWA and Masamitsu HARUNA^*

School of Allied Health Sciences, Faculty of Medicine, Osaka University, 1-7, Yamada-Oka, Suita, Osaka, 565-0871 Japan

(Received May 15, 2000; Accepted June 30, 2000)

We propose and demonstrate a novel optical reflection tomography along the geometrical thickness. This technique is based on simultaneous measurement of refractive index n and thickness t of a sample using the combination of a low coherence interferometer and confocal optics. The interferometer provides optical coherence tomography (OCT) of the dimension of the optical thickness (=n×t) along the optical axis, while the confocal optics gives us another type of reflection tomography, having the thickness dimension of nearly t/n along the optical axis. This sort of tomography can be called confocal reflection tomography (CRT) and has not yet been demonstrated, to our knowledge. Simple image processing of OCT and CRT results in the desired reflection tomographic image, showing two-dimensional refractive index distribution along the geometrical thickness.

Key words : optical tomography, low coherence interferometry, confocal optics, optical coherent tomography, confocal reflection tomography

^*haruna@sahs.med.osaka-u.ac.jp