Patent ID: 7538405

Claim:
A semiconductor sensor, comprising: a semiconductor layer having an incident surface to receive incident infrared radiant energy on one side of the semiconductor layer and having a corrugated surface on an opposite side of the semiconductor layer; and a metal layer having a corrugated surface matching the corrugated surface of the semiconductor layer and contacting the corrugated surface of the semiconductor layer to form a corrugated interface between the semiconductor layer and the metal layer, the corrugated interface being substantially parallel to the incident surface of the semiconductor layer; wherein the corrugated interface has a major axis that is substantially parallel to the incident surface, the corrugated interface has at least one periodicity associated therewith and a depth d ranging between about 50 nm and about 100 nm, the semiconductor layer, the metal layer, and the corrugated interface are configured, dimensioned and shaped to convert photons in the incident radiant energy into surface plasmons such that the surface plasmons travel along the corrugated interface in a direction substantially parallel to the incident surface and generate evanescent waves extending into the semiconductor layer which generate electron-hole airs in the semiconductor layer.