Title :
Numerical simulation of optical devices
Author :
Vecchi, Maria Cristina ; Rudan, Massimo ; Soncini, Giovanni
Author_Institution :
Dipartimento di Elettronica, Inf. e Sistemistica, Bologna Univ., Italy
fDate :
10/1/1993 12:00:00 AM
Abstract :
The description of the optical-generation phenomena has been incorporated in the semiconductor-device analysis program HFIELDS, keeping the structural and geometrical flexibility of the original code. To this end a substantial effort has been devoted to the software implementation. The latter required the introduction of a number of optical windows and interleaved material layers through which a radiation with arbitrary spectrum, incidence angle, and polarization state enters the crystal. The corresponding generation rate at each node of the discretization grid is then evaluated by adding up the contribution of each monochromatic component of the impinging radiation. The code equipped with this new capability makes the description of realistic semiconductor optical sensors feasible. Black-body radiation has been incorporated into the code to allow for the simulation of solar cells. After a brief review of the underlying physics, the software implementation is described and a number of examples are illustrated
Keywords :
electronic engineering computing; optical sensors; semiconductor device models; solar cells; HFIELDS; black-body radiation; discretization grid; incidence angle; interleaved material layers; monochromatic component; optical sensors; optical windows; polarization state; semiconductor-device analysis program; software implementation; solar cells; Crystalline materials; Geometrical optics; Mesh generation; Numerical simulation; Optical devices; Optical materials; Optical polarization; Optical sensors; Photovoltaic cells; Semiconductor materials;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
