| abstract |
@ Objects to be examined, such as tissue 30 or any cellular or crystalline material, e.g. semiconductor wafers, are placed in a region of confluence of two interfering coherent beams of radiation which are at the same frequency and phase and at a frequency to which the object is semi-transparent. The beams are produced by separate sources 23, 24 or by refraction by a Fresnel biprism 43 or any other interferometer structure. An off-axis parabolic reflection system 52,54 is also disclosed. The interference fringe phase and amplitude pertubation produced by the object is detected 31 and examined to derive information regarding physical properties of the object or abnormalities in its structure. Such abnormalities, as fractures or latent stresses in a semi-conductor wafer or the presence of tumors in biological tissue can be determined. Chemical characteristics of living tissue is determined by sweeping the frequency of the coherent radiation over a band which includes the absorption bands of given chemicals such as hydrogen, oxygen, sodium, and other materials which are representative of the structure of living tissue. The frequencies employed may be in the microwave band, millimeter band or higher. The information derived from the pertubation in the interference fringe pattern is presented in two-dimensional or three-dimension (holographic) displays after suitable computer-processing. |