With the fast development of the fifth-generation cellular network technology (5G), the future
sensors and microelectromechanical systems (MEMS)/nanoelectromechanical systems …

Pull-in instability as an inherently nonlinear and crucial effect continues to become
increasingly important for the design of electrostatic MEMS and NEMS devices and ever …

In the present study, longitudinal free vibration behaviors of one-dimensional nanostructures
with various boundary conditions are investigated based on Eringen's nonlocal theory. The …

Electromagnetic metamaterials are artificially engineered materials that have revolutionized
the research activities for efficient manipulation of terahertz (THz) waves in the past decade …

The direct growth of graphene on insulating substrate is highly desirable for the commercial
scale integration of graphene due to the potential lower cost and better process control. We …

We experimentally report a structurally reconfigurable metamaterial for active switching of
near-field coupling in conductively coupled, orthogonally twisted split ring resonators …

A microelectromechanically reconfigurable digital metamaterial for dynamic switching of
terahertz anisotropy is experimentally demonstrated. Out-of-plane reconfigurable …

We report experimental results of the active switching of electromagnetically induced
transparency (EIT) analogue by controlling the dark mode excitation pathways in a …

Tunability in metamaterials has added a new dimension to the functionality and application
scope for light–matter interaction in the subwavelength regime. Microelectromechanical …

In this paper, we propose a graphene RF MEMS switch design for the X–V band. The
structural parameters of graphene, such as the number of layers, the thickness of the …