Title :
Theoretical Investigation of Metal Cladding for Nanowire and Cylindrical Micropost Lasers
Author :
Krishnamurthy, Vivek ; Klein, Benjamin
Author_Institution :
Georgia Inst. of Technol., Savannah
Abstract :
We investigate the transverse modal properties of cylindrical subwavelength metal-clad nanowire and micropost lasers via rigorous theoretical waveguide analysis, including the effects of finite thickness metal cladding and gain in the core. The results of this analysis show that air-metal surface guided TM01 and some hybrid surface guided modes suffer less loss but are less confined to the core, while core-metal surface guided modes are better confined to the core but suffer greater loss. An increase in the thickness of the metal cladding reduces the loss of the core-metal surface guided modes. The modal gain and confinement of the metal-clad cavity are compared to an unclad cavity.
Keywords :
claddings; laser cavity resonators; micro-optics; nanotechnology; nanowires; optical losses; optical waveguide theory; semiconductor lasers; surface plasmon resonance; waveguide lasers; air-metal surface; core-metal surface guided modes; cylindrical micropost lasers; cylindrical subwavelength metal-clad nanowire; hybrid surface guided modes; transverse modal properties; unclad cavity; waveguide analysis; Laser modes; Laser theory; Optical waveguides; Plasmons; Semiconductor lasers; Semiconductor waveguides; Surface emitting lasers; Surface waves; Vertical cavity surface emitting lasers; Waveguide lasers; Air–metal surface guided mode; core–metal surface guided mode; core-guided mode; cylindrical waveguide; lasers; metal-clad; micropost; nanowire; surface plasmon;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2007.910451
