Publication Date:
2009
abstract:
In this work we introduce a new transmitter/receiver sensor antenna for THz applications, by exploiting piezoelectric Mo/AlN/Mo rings realised through micromachining techniques. This kind of sensor antenna takes advantages of the piezoelectric effect which allows to tune the ring diameter thus enabling the modulation of a THz signal. The theoretical and numerical modelling analyzes a single transmitter/receiver THz sensor system. The numerical finite element method (FEM) modelling provides the radiation pattern of the receiver ring at 1 THz, and the theoretical modelling analyses the modulation principle of the transmitter antenna. We prove the presence of piezoelectric resonances in a frequency range from 30 KHz to 1 GHz by measuring the scattering parameters of four rings arranged on the same chip. © 2009 EuMA.
Iris type:
04.01 Contributo in Atti di convegno
Keywords:
Frequency ranges; Micromachining tec; Numerical modelling; Piezo-electric effects; Piezoelectric resonance; Piezoelectric rings; Radiation patterns; Ring diameter; Sensor systems; Theoretical modelling; THz signal; Transmitter antennas; Antennas; Composite micromechanics; Directional patterns (antenna); Micromachining; Microwaves; Piezoelectric transducers; Piezoelectricity; Scattering parameters; Sensors; Microwave antennas
List of contributors: