PROCEDE ET APPAREIL PERMETTANT D'AMELIORER LA CLARTE ET LA SENSIBILITE DE L'IMAGE EN TOMOGRAPHIE A COHERENCE OPTIQUE AU MOYEN D'UNE INTERACTION PERMETTANT DE CONTROLER LES PROPRIETES FOCALES ET LA SYNCHRONISATION DE COHERENCE
Methods for optical imaging, particularly with optical coherence tomography, using a low coherence light beam reflected from a sample surface and compared to a reference light beam, wherein real time dynamic optical feedback is used to detect the surface position of a tissue sample with respect to a reference point and the necessary delay scan range. The delay is provided by a tilting/rotating mirror actuated by a voltage adjustable galvanometer. An imaging probe apparatus for implementing the method is provided. The probe initially scans along one line until it finds the tissue surface, identifiable as a sharp transition from no signal to a stronger signal. The next time the probe scans the next line it adjusts the waveform depending on the previous scan. An algorithm is disclosed for determining the optimal scan range.
