We propose a mean field band structure theory for low-lying two-dimensional photonic states based on the principle of plane wave expansion. Our theory reduces the complexities of a two-dimensional problem into that of an effective one-dimensional crystal, which provides two key advantages: (a) simplification of dimensions assists in the ease of calculation and (b) delineation of the photonic state physics leads to a gain in its physical insights. Our method distinguishes itself from previous known mean field theories in its capability to include more than one Fourier component of EM fields decomposed along the direction perpendicular to propagation. Furthermore, the method applies to virtually any crystal structure and direction of propagation, and it was discovered to function well for both E-polarization and H-polarization modes of states. We also attempt to demonstrate a systematic improvement of the calculation with the increasing number, of Fourier components. Satisfactory numerical accuracy is obtained particularly for the states of the two lowest bands.

• 出版日期2008-9-1
• 单位清华大学