OFF-PLANE ANGLE DEPENDENCE OF PHOTONIC BAND-GAP IN A 2-DIMENSIONAL PHOTONIC CRYSTAL

We present an analysis of off-plane angle dependence of the photonic b and gap in a two-dimensional triangular lattice with circular air rods embedded in a dielectric background, The plane-wave expansion theory is used to calculate band structures within the first Brillouin zone, and an effective refractive index approach is introduced to derive the off-plane angle dependence, The off-plane angle at which the in-plane hand gap decreases to half of its gap width has been obtained, which can be increased significantly by increasing the filling fraction of t he air rods, For a typical semiconductor material with a refractive in dex of 3.6 as the background, this angle reaches 26 degrees at a high filling fraction of 0.84 (where the normalized in-plane band gap width is 24%), The corresponding solid angle of 1.75 pi could cover about 6 0 of the spontaneous emission from a linear-polarized dipole along the air rods.