Integrated Optical Electric Field Sensor From 10 kHz to 18 GHz


A lithium niobate (LiNbO$_{3}$)-based integrated optical sensor with Mach–Zehnder optical waveguide interferometer and tapered antenna array was designed and fabricated for electric field detection. Experimental results reveal that this sensor has a frequency response deviation less than ${pm}$10 dB within the range of 10 kHz to 18 GHz, and its minimum detectable electric field intensity is 0.4 V/m. Moreover, a pulsed electric field with nanoseconds width and electric field intensity of 103 V/m have been detected by this sensor.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE :Normal Harmonic Search Algorithm Primarily based MPPT forSolar PV System and Integrated with Grid using Reduced Sensor Approach and PNKLMS AlgorithmABSTRACT:This paper deals with a unique reduced sensor strategy,
PROJECT TITLE :Performance Improvement of Grid Integrated SolarPV System using DNLMS Control AlgorithmABSTRACT:An integration of renewable sources based distributed generating systems encounters various power quality issues because
PROJECT TITLE :SERvICE: A Software Defined Framework for Integrated Space-Terrestrial Satellite Communication - 2018ABSTRACT:The existing satellite communication systems suffer from ancient design, such as slow configuration,
PROJECT TITLE :A High Performance Gated Voltage Level Translator with Integrated Multiplexer - 2018ABSTRACT:Multiple offer voltages are commonly employed in designs to enable higher power performance through dedicated management
PROJECT TITLE :A Scalable Network-on-Chip Microprocessor With 2.5D Integrated Memory and Accelerator - 2017ABSTRACT:This paper presents a two.5D integrated microprocessor die, memory die, and accelerator die with two.5D silicon

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry