Title :
Analytic expressions for the electromagnetic mode density in finite, one-dimensional, photonic band-gap structures
Author :
Bendickson, J.M. ; Scalora, M. ; Dowling
Author_Institution :
US Army Missile Command, Redstone Arsenal, AL, USA
Abstract :
Summary form only given. We derive an exact expression for the electromagnetic mode density, and hence the group velocity, for a finite N period, one-dimensional photonic band-gap structure. We begin by deriving a general formula for the mode density in terms of the complex transmission coefficient of an arbitrary index profile. Then we develop a formula that gives the N-period mode density in terms of the transmission coefficient of the unit cell. The special cases of mode-density enhancement and suppression at the photonic band edge and at mid gap, respectively are derived. The specific example of a quarter-wave stack is analyzed, and applications to 3D structures, spontaneous emission control, delay lines, band-edge lasers, and superluminal tunneling times are discussed.
Keywords :
laser theory; photonic band gap; refractive index; spontaneous emission; superradiance; tunnelling; 1D photonic band-gap structures; 3D structures; N-period mode density; analytic expressions; arbritrary index profile; band-edge lasers; complex transmission coefficient; delay lines; electromagnetic mode density; finite one-dimensional photonic band-gap structures; group velocity; mode density; mode-density enhancement; mode-density suppression; quarter-wave stack; spontaneous emission control; superluminal tunneling times; transmission coefficient; unit cell; Electromagnetic analysis; Noise reduction; Nonlinear optics; Optical fibers; Optical noise; Optical refraction; Optical scattering; Optical signal processing; Quantum cascade lasers; Silicon compounds;
Conference_Titel :
Quantum Electronics and Laser Science Conference, 1996. QELS '96., Summaries of Papers Presented at the
Conference_Location :
Anaheim, CA, USA
Print_ISBN :
1-55752-444-0
