RESEARCH AREAS
 

 
 

Quantum computing technologies
  - Single and two-port SAW type structures having resonance frequency > 6 GHz with magnetostrictive layer, developed and manufactured on GaN/Si.
  - Coupling the surface and bulk acoustic waves with the spin waves.
  - Magnetic sensors based on GaN/Si one port SAW resonators
  - Cryogenic measurements of the transfer characteristics for qubit pMOS type transistors
  - Tehnologies for single electron transistor as qubits elements
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Integration of nano scale carbonic, bidimensional and ferroelectric materials
  - Electromagnetic modeling of switches and filters based on vertical carbon nanotubes for applications at frequencies around 60 GHz
  - Modeling, manufacturing and experimental characterization of bow-tie antennas and antenna networks at 24 GHz
  - Beam-steering antenna arrays based on nanostructured graphene/graphite for advanced microwave communications
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Acoustic devices (FBARs and SAWs) for applications in

the GHz frequency raqnge, based on micromachining and nanoprocessing of wide band gap semiconductors, (GaN and AlN)
  - FBAR devices based on micromachining of GaN
  - SAW devices based on nanoprocesing of GaN/Si
  - Temperature sensors  based on GHz SAW devices
  - Gas sensors based on SAW devices
   
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Design and manufacturing of micromachined,

passive circuits elements, monolithically and hybrid integrated receiver front-ends based on silicon and GaAs micromachining
 
  - Novel micromachined lumped bandpass filter for 5.2GHz WLAN applications
  - Millimeter wave identification system at 60 GHz
  - 77 GHz receiver in LTCC technology
 

- Design and manufacturing of micromachined
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Novel microwave devices based on CNT and graphene
 
  - Coplanar line on graphene with variable transmission response up to 60 GHz and 50 ohm impedance
  - Sensing DNA using carbon nanotubes
 
 
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  Microwave devices using CRLH materials
(metamaterials)
 
 
 
 
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New methods for microwave circuits design, based on modern mathematical tools
  - New methods for microwave circuits design, based on modern mathematical tools
   
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