| Proj No. | A2160-251 |
| Title | COMSOL Simulation of Semiconductor Electronic Metadevices |
| Summary | Electronic metadevices are engineered structures that exhibit unique electrical properties beyond those of conventional materials. By precisely designing their geometry, these devices enable novel functionalities such as tunable electrical responses, enhanced conductivity, and controlled signal propagation. They have promising applications in next-generation electronics, including reconfigurable circuits, RF switches, and signal modulation. In this project, student will use COMSOL Multiphysics to simulate the metadevice and real-world applications of electronic metadevices. The student will model and analyze how metadevices can be used to develop an RF Single-Pole Double-Throw (SPDT) switch and a three-terminal metadevice, both of which are essential components in advanced communication. SPDT Switch A Single-Pole Double-Throw (SPDT) switch is an essential component in RF and microwave circuits, commonly used for signal routing, antenna switching, and communication systems. It operates by directing an input signal from a single source (Single-Pole) to one of two output paths (Double-Throw), enabling switching between different circuit branches. Three-Terminal Metadevice Three-terminal electronic metadevices extend the concept of electronic metadevices by introducing a gate terminal that allows electrostatic control over the device’s operation. |
| Supervisor | Ast/P Mohammad Samizadeh Nikoo (Loc:S1 > S1 B1B > S1 B1B 61, Ext: ?) |
| Co-Supervisor | - |
| RI Co-Supervisor | - |
| Lab | INTEGRATED SYSTEMS RESEARCH (Loc: S1-B2A-04) |
| Single/Group: | Single |
| Area: | Microelectronics and Biomedical Electronics |
| ISP/RI/SMP/SCP?: |