The optical switch array is a key device for realizing photonic switching systems. A lossless and low crosstalk switch is the most desirable component of large‐scale switching systems which have more than 100 input/output ports. to realize such a switch monolithically, a carrier‐injection‐type optical single‐slip structure (S3) switch with traveling‐wave amplifier (COSTA) have been proposed. to realize the COSTA, a carrier‐injection‐type optical switch and an optical amplifier that are suitable for integration have been developed. First, a carrier‐injection‐type optical switch where the PN junction was formed by crystal growth was fabricated. It was confirmed that the characteristics of the device do not deteriorate during heating, which makes it suitable for integration. Next, the structure of an optical amplifier which can be integrated into the optical waveguide using the reactive ion etching (RIE) process was investigated. an optical amplifier that was integrated into a straight optical waveguide was fabricated, and it was confirmed that this amplifier could produce enough gain (internal gain of 25 dB) to compensate for the loss in the optical switch. Using these two basic techniques, a 4 × 4 COSTA was fabricated. With this 4 × 4 COSTA, fiber‐to‐fiber lossless (maximum gain of 5 dB) and extremely low crosstalk characteristics (ON‐OFF ratio of 54 dB) were demonstrated.
A lossless and low crosstalk optical switch is most desirable for large scale photonic networks. To realize such a switch, a traveling-wave amplifier is integrated into the slip waveguide of a carrier-injection type optical single-slip structure(S3) switch. Fiber-to-fiber lossless and low crosstalk (an ON/OFF ratio as high as 40dB) are demonstrated in a 2 X 2 cross-bar optical switch that has integrated 4 amplifiers and 8 Y-branch optical switches.
Photonic space division switching networks are one of the most promising switching systems. In designing such a network on a large scale, C. Burke et al. proposed and demonstrated that use of semiconductor optical amplifiers could reduce optical switch loss[1]. A lossless optical switch unit is most desirable for large scale photonic networks because it enables us to enlarge the network without being concerned about optical loss.
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