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Graphene and its derivatives (graphite, CNT) have very high conductivity and critical current density higher than 108 A/cm2, which can be utilized in interconnect applications. Theoretically, a doped graphene is predicted to have better performance than Cu as an interconnect conductor. However, the feasibility of graphene interconnect has not been experimentally examined systematically. In this paper,...
Wideband 3D transitions from 60 to 110 GHz using 50 m via technology on liquid crystal polymer (LCP) are presented. A conductor backed coplanar waveguide (CBCPW) transition on a homogeneous LCP sample shows less than 0.8 dB loss from 60 to 110 GHz. In addition, a CBCPW-to-CBCPW and a CBCPW-to-CPW transition on LCP bonded to silicon substrate are presented also in the range 60-110 GHz. The CBCPW-to-CBCPW...
High density interconnect technology shows promise for the integration of compact multi-substrate devices in the millimetre-wave range and beyond. High-frequency integrated circuits that combine organic and silicon substrates are being investigated by researchers at the Georgia Institute of Technology in the US. The researchers have shown, for the first time, the integration of low-loss wideband high...
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