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Section: HIGH SPEED COMMUNICATION
High-frequency electronic devices
Prof. Mikael Östling, KTH, presented the facilities for research, production and characterization at Electrum and took up several innovative technologies which are breaking through to produce new devices.
Intel’s 45 nm technology, providing high-sped devices and microprocessors; Nanostructured-material combinations, on silicon; and terahertz imaging. Mikael pointed out the importance of joining efforts academics and industry together to explore the ways to effective commercializing the new technologies.
Spintronic oscillator from 1 to 100 GHz
Johan Persson, KTH, discussed the amazing possibilities to be available with the development of spintronic oscillators. A real compact technology for high-frequency electronics.
Photonic crystals and other silicon waveguide devices
Dr. Lech Wosinski, KTH, took us through the evolution of photonics device integration to today’s compactness of photonic crystals and silicon waveguide devices.
Radio-over-fiber
Dr. Richard Schatz, KTH, presented the capabilities and potential of radio at optical frequencies, best known as radio-over-fiber. Higher spectral efficiency and lower bandwidth demands for electronic and photonic devices.
Section: EXTREME INTEGRATION
Plasmon optics for extreme device integration
Prof. Lars Thylen, KTH, discussed the importance of sizing among all the key issues in the development of integrated photonic components. Lars described trends and future material developments in the integration of photonic devices as the evolution in the development of waveguides and metamaterials.
Assembly and packaging in optoelectronics
Dr. Bertrand Noharet, Acreo, presented examples of low-cost assembly and packaging techniques and the impact in product developments.
Micromechanical components for re-configurable network
Dr. Joachim Oberhammer, KTH, presented the amazing capabilities of RF MEMS switching, filtering, modulating, tuning and much more, for a variety of applications as telecom, automotive, test & measurement or remote sensing. MEMS tunable metamaterials, multistable microwave switches, and arrays for automated applications.
Quantum cryptography for transmission security beyond imagination
Dr. Marcin Swillo, KTH, discussed absolute secure communication with quantum cryptography available and coming improvements in compactness, speed and robustness.
From research to industrial development
Christian Vieider, Acreo, discussed the use of nanotechnology and the potential for the Swedish Communication industry. Christian summarized the capabilities offered by experts around Electrum Laboratory in the development of materials and components as well as integration and characterization techniques. Consultation, FoU, and production support services.
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