Main content
Displaying 29251 - 29260 of 37730

The original scale changing technique is applied to the electromagnetic modeling of MEMS-controlled phase-shifters used in reconfigurable reflectarrays.

This Comment considers the dependence of the density fluctuation spectrum observed in tokamak plasmas on the parameters of the plasma.

A scale changing approach is proposed for the electromagnetic modeling of phase-shifter elements used in reconfigurable microelectromechanical system (MEMS)-controlled reflectarrays.

The authors present SCALE, a content-centric design for MANETs. When possible, SCALE favors routing based on content names to provide local and efficient content retrieval.

Superior transport properties in InGaAs and compatibility with long-wavelength 1.3-1.55microns photonic devices suggests that AlInGaAsP heterostructure bipolar transistors (HBTs) should outperform

Motivated by the need for the Cholesky factorization in implementing a spherical MIMO detector, this paper considers Cholesky and QR decompositions suitable for fixed-point implementation.

Motivated by the need for the Cholesky factorization in implementing a spherical MIMO detector, this paper considers Cholesky and QR decompositions suitable for fixed-point implementation.

This article provides an overview of ongoing research within the framework ScaleNet.

Reducing length scales in n-p-n heterojunction bipolar transistors leads to unexpected changes in the fundamental limits of device performance.

A simple scaling description of the ordering transition in random field Ising systems is developed and supported by renormalization group arguments in terms of a zero temperature critical fixed poi