Multiple reference OCT system

摘要

The invention provides for generating a set of signature signals that correspond to a range of depths within a target. These signature signals can include multiple individual reference signals and be can modified to compensate for specific characteristics of the target. In the preferred embodiment the members of the set of signature signals are correlated with data sets by phase rotating individual reference signals to determine maximum and minimum correlation and thereby enabling determination of the scattering characteristic of the target at each depth. Also a pilot signal is monitored to dynamically determine the phase relationship between individual reference signals and thereby avail of phase sensitive detection techniques to enhance SNR at deeper regions where multiple individual reference signals exist.

主权项

1. A method of analyzing a target wherein said method includes the steps of:
generating a set of signature signals where each signature signal of said set of signature signals results from an interaction of reference radiation of a multiple reference optical coherence tomography system and scattered probe radiation of said multiple reference optical coherence tomography system where said scattered probe radiation is scattered by a scatterer at a pre-determined distance from a multiple reference optical coherence tomography system where said distance is along the direction of the probe radiation; acquiring at least one data set from a target using said multiple reference optical coherence tomography system; correlating said set of signature signals with said data set to generate a set of correlation values, wherein the step of correlating said set of signature signals with said data set to generate a set of correlation values includes the sub-step of rotating the phase of at least some of the components of said signature signals, and computing a difference between a maximum and minimum correlation value to generate a set of final correlation values resulting in a depth scan with an improved signal to noise ratio; and outputting said set of correlation values to form a depth scan.