1 June 2010 Hybrid integrated optical subassembly module using a polymeric wavelength division multiplexing filter based on multimode interference for 1.31- and 1.55-µm bidirectional operation
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Abstract
We present a new configuration for a polymer wavelength division multiplexing (WDM) filter based on multimode interference. We developed a hybrid integrated subassembly module for 1.31- and 1.55-µm bidirectional operation. Active devices including a laser diode with a monitoring photodiode and a receiving photodiode were integrated on a silicon optical bench (SiOB) platform using a flip-chip bonding technique. A polymer WDM filter chip made of polymethylmethacrylate was fabricated using a hot embossing technique. We then investigated the optical performance of the transmitter and receiver subassembly module using a SiOB platform. This hybrid integrated subassembly module exhibited bidirectional 2.5-Gbit/s signal modulation with a minimum sensitivity of −20.5 dBm at a bit error rate of 10−10 and an optical crosstalk of −35 dB.
© (2010) Society of Photo-Optical Instrumentation Engineers (SPIE)
Jung Woon Lim, Jung Woon Lim, Sung Hwan Hwang, Sung Hwan Hwang, Woo Jin Lee, Woo Jin Lee, Tae-Ho Lee, Tae-Ho Lee, Myung-Yong Jeong, Myung-Yong Jeong, Boo-Gyoun Kim, Boo-Gyoun Kim, Byung Sup Rho, Byung Sup Rho, } "Hybrid integrated optical subassembly module using a polymeric wavelength division multiplexing filter based on multimode interference for 1.31- and 1.55-µm bidirectional operation," Optical Engineering 49(6), 065004 (1 June 2010). https://doi.org/10.1117/1.3454385 . Submission:
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