Title :
Photonic integrated circuits: research curiosity or packaging common sense?
Author :
Koch, Thomas L. ; Koren, Uziel
Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
Abstract :
The potential of photonic integrated circuits (PICs) for meeting the requirements of high-connectivity optical communication architectures (where there is a variety of cascaded, interconnected optical devices at each station) at a reasonable cost is discussed. PICs refer to the monolithic (single-substrate) integration of optically interconnected guided-wave devices. PIC technology replaces the separate, sequential alignment of single-mode fiber interconnections between the discrete devices with lithographically produced single-crystal waveguides, eliminating the cost of individual alignments through a wafer-scale batch process and providing a lower-loss connection, a low-reflection connection, and a very robust, small package. To illustrate the application of PIC techniques, a balanced heterodyne receiver, a wavelength-division-multiplexing source, and tapered waveguide output couplers are considered.<>
Keywords :
economics; frequency division multiplexing; integrated optoelectronics; optical communication equipment; optical couplers; optical interconnections; optical workshop techniques; packaging; receivers; WDM transmission source; balanced heterodyne receiver; low-reflection connection; lower-loss connection; monolithic integration; optically interconnected guided-wave devices; photonic integrated circuits; tapered waveguide output couplers; Costs; Integrated circuit interconnections; Integrated circuit packaging; Integrated optics; Optical devices; Optical fiber communication; Optical interconnections; Optical mixing; Optical waveguides; Photonic integrated circuits;
Journal_Title :
LCS, IEEE
