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Article Abstract
This article aims to utilize a microelectromechanical system (MEMS) to modulate coupling behavior of silicon nitride (SiN) waveguides to perform an optical switch based on a directional coupling (DC) mechanism. There are two states of the switch. First state, a SiN wire is initially positioned up suspended in the air. In the second state, this wire will be moved down to be placed between two arms of the DC waveguides, changing the coupling behavior to achieve bar and cross states of the optical switch function. In the future, the MEMS will be used to move this wire down. In this work, we present simulations of the two static states to optimize the DC structure parameters. Based on the simulated results, the device size is 8.8 μm × 55 μm. The insertion loss is calculated to be approximately 0.24 dB and 0.33 dB, the extinction ratio is approximately 24.70 dB and 25.46 dB, and the crosstalk is approximately -24.60 dB and -25.56 dB, respectively. In the C band of optical communication, the insertion loss ranges from 0.18 dB to 0.47 dB. As such, this device will exhibit excellent optical switch performance and provide advantages in many integrated optics-related optical systems applications. Furthermore, it can be used in optical communications, data centers, LiDAR, and so on, enhancing important reference value for such applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12388678 | PMC |
| http://dx.doi.org/10.3390/mi16080854 | DOI Listing |
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