Advanced dielectric materials for therahertz space applications and technology
Project Director: Dr. Nedelcu Liviu
Project Director: Dr. Liviu NEDELCU
Project Type: National
Project Program: STAR
Funded by: Romanian Space Agency
Contractor: National Institute of Materials Physics
Project Status: Finished
Start Date: Friday, 1 November, 2013
End Date: Sunday, 1 November, 2015
Continuous evolution of the wireless communications emphasizes the jamming issues due to the scarcity of the electromagnetic spectrum used in both terrestrial and space infrastructures. According to the “Yearbook on Space Policy 2009/2010 - Space for Society” book, “We need to think about sophisticated procedures to manage the available frequency slots and/or to extend the usable frequency range using new technologies and transmission techniques”. As a consequence, microwave (MW) links tend to expand toward millimeter-waves (MMWs) and submillimeter-waves (SMMWs). Materials with high dielectric constant, low-losses, and controlled temperature coefficient of the permittivity are very effective for size and weight reduction of the equipment and reliability improvement. The project moves forward terrestrial applications and employs concept from low-loss MW dielectrics for development of the cost-effective materials with appropriate parameters in MMW and SMMW domain. Dielectric properties of Mg4Nb2O9, Mg2SiO4, and Zn2SiO4 ceramics were investigated in order to provide the basis for developing a new generation of competitive terahertz components that meet the requirements of integration and thermal stability.
CO - National Institute of Materials Physics, Bucharest-Magurele, Romania
Project manager: Dr. Liviu NEDELCU
Key persons: Dr. Marian Gabriel BANCIU, Dr. Gheorghe Virgil ALDICA, Dr. Marin CERNEA, Dr. Iuliana PASUK
P1 - Institute of Space Science, Bucharest-Magurele, Romania
Team leader: Dr. Veta GHENESCU
Key persons: Dr. Ion Sorin ZGURA, Dr. Catalin CUCU-DUMITRESCU, Dr. George MOGILDEA, Dr. Marian MOGILDEA
- Operational requirements specific to space applications.
- Identification of the cosmic radiations that can influence the electromagnetic parameters of dielectric materials.
- Preliminary studies regarding the dispersion of the dielectric function in THz domain of some commercial dielectrics.
- Synthesis and characterization of Mg4Nb2O9, Mg2SiO4, and Zn2SiO4 ceramics.
- Mg4Nb2O9 and Mg2SiO4 samples with good endurance to mechanical vibrations and neutron irradiation.
- L. Nedelcu, C.D. Geambasu, M.G. Banciu, “Submillimeter-wave properties of low-loss dielectrics studied by terahertz time-domain spectroscopy”, Electroceramics XIV, June 2014, Bucharest, Romania.
- L. Nedelcu, M.G. Banciu, C.P. Ganea, G.V. Aldica, "Broadband dielectric spectrosocopy of Mg4Nb2O9 ceramics", 14 th International Balkan Workshop on Applied Physics, July 2014, Contanta, Romania.
- L. Nedelcu, C.D. Geambasu, M.G. Banciu, "Millimeter-wave ceramics for harsh environment applications", EMRS Fall Meeting, Warsaw, Poland.
- L. Nedelcu, C.D. Geambasu, M.G. Banciu, Process for obtaining of Mg4Nb2O9 ceramics with low absorption in terahertz domain – RO 131868 B1, granted patent
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