Aspherical solar cell concentrator

TLDR: A light concentrator for use with photovoltaic cells has a novel aspherical shape to provide the desired distribution of energy over the surface of the cell, which is obtained by making the ray-deflecting surface of a concentrator as a figure of revolution whose generating line focuses incident rays arriving parallel to the axis of revolution onto a point removed from the axis as discussed by the authors.

Abstract: A light concentrator for use with photovoltaic cells has a novel aspherical shape to provide the desired distribution of energy over the surface of the cell. The cell is usually circular with a current-collecting bus electrode around the circumference of the active surface. To provide for minimum resistive losses due to the current generated in the cell and flowing to the bus, the light may be concentrated in a band just inside the bus with reduced or even zero energy density inside the band. This distribution is obtained by making the ray-deflecting surface of the concentrator as a figure of revolution whose generating line focuses incident rays arriving parallel to the axis of revolution onto a point removed from the axis. Thus, a point source at infinity is "focused" into a circle around the axis instead of the point focus of conventional optics. Solar light is "focused" into an annular ring. Since the concentrated light pattern is larger than the true image formed by conventional optics with the same focal length, for a given size of cell the focal length can be made shorter and hence the accuracy tolerance of the concentrator surface is greatly relaxed, providing a reduction of cost.