Microwave Inter-Connections and Switching by means of Carbon Nano-tubes

In this work, carbon nanotube (CNT) based interconnections and switches will be reviewed, discussing the possibility to use nanotubes as potential building blocks for signal routing in microwave networks. In particular, theoretical design of coplanar waveguide (CPW), micro‐strip single‐pole‐single‐throw (SPST) and single‐pole‐double‐throw (SPDT) devices has been performed to predict the electrical performances of CNT‐based RF switching configurations. Actually, by using the semiconductor‐conductor transition obtained by properly biasing the CNTs, an isolation better than 30 dB can be obtained between the ON and OFF states of the switch for very wide bandwidth applications. This happens owing to the shape deformation and consequent change in the band‐gap due to the external pressure caused by the electric field. State‐of‐art for other switching techniques based on CNTs and their use for RF nano‐interconnections is also discussed, together with current issues in measurement techniques

Erlotinib and gefitinib for elderly patients with advanced non-small-cell lung cancer.

Erlotinib and gefitinib are tyrosine kinase inhibitors (TKI) associated with the EGFR, which is involved in cell proliferation, growth, migration, invasion and survival, and has been found to be overexpressed in non-small-cell lung cancer. Erlotinib was the first target agent approved for the treatment of NSCLC in second- and third line, in patients unselected for EGFR mutations; gefitinib was the first EGFR tyrosine kinase inhibitor approved for the treatment of NSCLC in all lines of setting in patients harbouring EGFR mutations. In elderly patients, with a poor prognosis, and different co-morbidities, erlotinib and gefitinib could be considered as valid therapeutic options. This paper reviews the role of both drugs, in the management of elderly patients affected by advanced NSCLC based on an update analysis of randomised and non-randomised clinical trials

PHASE SHIFTERS BASED ON RF MEMS COPLANAR SHUNT SWITCHES

This paper presents the experimental results obtained on a digital phase shifter based on RF MEMS coplanar shunt switches for radar, beam forming applications. A new design approach is proposed for the design of a digital distributed MEMS phase shifter, and the image parameter representation of two port networks is used to develop an analytical model for this component. Vector network Analyzer measurements have been performed by recording the scattering (S) parameters of the reflected and transmitted signals, and they have been elaborated to get the signal phase shift around the frequency F = 13.7 GHz used for the design. Actually, good performances of the phase shifter have been obtained with respect to the expected ones