In-Plane Bandgab Energy Controlled Selective MOVPE and Its Applications to Photonic Integrated Circuits
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概要
- 論文の詳細を見る
Photonic integrated circuits (PICs) are required for future optical communication systems, because various optical components need to be compactly integrated in one-chip configurations with a small number of optical alignment points. Bandgap energy controlled selettive metalorganic vapor phase epitaxy (MOVPE) is a breakthrough technique for the fabrication of PICs because this technique enables the simultaneous formation of waveguides for various optical components in one-step growth. Directly formed waveguides on a mask-patterned substrate can be obtained without using conventional mesa-etching of the semiconductor layers. The waveguide width is precisely controlled by the mask pattern. Therefore, high device uniformity and yield are expected. Since we proposed and demonstrated this technique in 1991, various PICs have been reported. Using electroabsorption modulator integrated distributed feedback laser diodes, 2.5 Gb/s-550 km transmission experiments have been successfully conducted. Another advantage of the selective MOVPE technique is the capability to form narrow waveguide layers. We have demonstrated a polarization-insensitive semiconductor optical amplifier that consists of a selectively formed narrow (less than 1μm wide) bulk active layer. For a four-channel array, a chip gain of more than 20 dB and a gain difference between TE and TM inputs of less than 1 dB were obtained. We have also reported an optical switch matrix and an optical transceiver PIC for access optical networks. By using a low-loss optical waveguide, a 0 dB fiber-to-fiber gain for the 1×4 switch matrix and 0 dBm fiber output power from the 1.3μm transceiver PIC were obtained. In this paper, the selective MOVPE technique and its applications to various kinds of PICs are discussed.
- 社団法人電子情報通信学会の論文
- 1997-05-25
著者
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SASAKI Tatsuya
Opto-Electronics and High Frequency Device Research Laboratories, NEC Corporation
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Komatsu Keiro
Opto-electronics Research Laboratories Nec Corporation
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Mito I
Opto-electronics Research Laboratories Nec Corporation
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Mito Ikuo
Opto-electronics Research Laboratories Nec Corporation
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YAMAGUCHI Masayki
Opto-Electronics Research Laboratories, NEC Corporation
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Yamaguchi Masayki
Opto-electronics Research Laboratories Nec Corporation
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Sasaki Tatsuya
Opto-electronics Research Laboratories Nec Corporation
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