Title :
Distributed feedback lasers in chiral media
Author :
Flood, Kevin M. ; Jaggard, Dwight L.
Author_Institution :
Complex Media Lab., Pennsylvania Univ., Philadelphia, PA, USA
fDate :
2/1/1994 12:00:00 AM
Abstract :
The combined effects of chirality and gain (or loss) on wave propagation and coupling in periodic structures is investigated here. The focus is on distributed feedback (DFB) lasers in a transversely unbounded periodic slab with spatially modulated electromagnetic parameters. The analysis uses a coupled-mode approach employing a canonical physical model of chiral materials to predict the effects of modulated chirality admittance on DFB lasers. Results for DFB laser behavior in chiral media are compared and contrasted to that in achiral media. It is found that, under certain circumstances, the electric and magnetic field coupling, which is characteristic of chiral materials, results in a lower threshold gain for DFB lasers in media with a given index of refraction and characteristic impedance. It is also found that chiral index-coupled or gain-coupled DFB lasers exhibit the same spectral mode properties as achiral DFB lasers
Keywords :
distributed feedback lasers; electromagnetism; laser theory; refractive index; solid lasers; DFB lasers; achiral DFB lasers; achiral media; canonical physical model; characteristic impedance; chiral index-coupled; chiral media; chirality; coupled-mode approach; distributed feedback lasers; electric field coupling; gain; index of refraction; loss; lower threshold gain; magnetic field coupling; modulated chirality admittance; periodic structures coupling; spatially modulated electromagnetic parameters; spectral mode properties; transversely unbounded periodic slab; wave propagation; Distributed feedback devices; Electromagnetic propagation; Laser feedback; Laser modes; Laser theory; Magnetic materials; Optical coupling; Optical materials; Optical propagation; Propagation losses;
Journal_Title :
Quantum Electronics, IEEE Journal of
