Title :
High power and high sensitivity planar lightwave circuit module incorporating a novel passive alignment method
Author :
Nakagawa, Gohji ; Yamamoto, Tsuyoshi ; Sasaki, Seimi ; Norimatsu, Masaaki ; Yamamoto, Naoki ; Nosaka, Taizo ; Terada, Koji ; Tanaka, Kazuhiro ; Miura, Kazunori ; Yano, Mitsuhiro
Author_Institution :
Network Syst. Lab., Fujitsu Labs. Ltd., Atsugi, Japan
fDate :
1/1/1998 12:00:00 AM
Abstract :
A high-power, high-sensitivity planar lightwave circuit (PLC) module, comprising a laser diode (LD) and a photodiode (PD) surface mounted on a PLC platform, has been realized by a novel passive alignment technique. We used a spot-size transformed LD and a corner-illuminated PD to form a highly efficient optical coupling between the devices and a PLC waveguide. We used the unique marker alignment method to ensure accurate positioning of them. The positioning precision achieved in the lateral direction was within 1 μm for the LD´s and within 10 μm for the PD´s. The rotational precision was within 0.4° for both chips. We realized high power operation (>8 mW) with a high receiver sensitivity (0.3 A/W). In this paper, we describe a high power, high sensitivity PLC incorporating a novel passive optical alignment technique for LD´s and PD´s
Keywords :
integrated optoelectronics; measurement errors; modules; optical communication equipment; optical fibre subscriber loops; optical workshop techniques; photodiodes; semiconductor lasers; sensitivity; surface mount technology; PLC platform; accurate positioning; corner-illuminated PD; high power operation; high power planar lightwave circuit module; high receiver sensitivity; high sensitivity planar lightwave circuit module; high-sensitivity planar lightwave circuit; highly efficient optical coupling; laser diode; lateral direction; passive alignment method; passive alignment technique; photodiode; positioning precision; rotational precision; spot-size transformed LD; surface mounted; unique marker alignment method; Circuits; Diode lasers; Optical coupling; Optical receivers; Optical sensors; Optical surface waves; Optical waveguides; Photodiodes; Programmable control; Surface emitting lasers;
Journal_Title :
Lightwave Technology, Journal of
