This paper reported the method of modulating the photonic band gap firstly by light induced alignment of liquid crystals.

In this paper,we provide new method of transfer matrixs studying the photonic band gap of one-dimensional (1D) photonic crystals.

In this paper the structural character of photonic crystals is reviewed, and the physical mechanism of photonic band gap formation is analyzed.

The influences of the structure parameters of a two-dimensional square photonic crystal on its photonic bandgap properties are investigated with the multiple-scattering method.

The effect of dielectric constant contrast and filling factor on photonic bandgap (PBG) for perfect PCs and localized states in PCs with point defects are investigated.

The photonic crystal fiber(PCF) with a special envelop structure induces the light by photonic bandgap(PBG) effect.

The characteristics of photonic forbidden band and impurity mode in doped one-dimensional photonic crystal were investigated by numeral simulated calculation with the method of characteristic matrix.

The results indicate that there is a narrow high-transmittance peak in photonic forbidden band of doped one-dimensional photonic crystals.

The results indicated that the equivalent refractive indexes are not existence in photonic forbidden bands and in both sides of forbidden bands.

On the basis,the relation between the enhancement of stimulated emission as well as transmissivity being greater than one and the abnormal group velocity in photonic band gaps as well as n.

Photonic crystals were periodic optical structures that were capable of generating photonic band gaps ,analogous to the way of electronic band gaps generated by periodic atomic structure .