On the applications of mu=-1 metamaterial lenses for magnetic resonance imaging

TL;DR

This paper explores how negative permeability magnetic metamaterial lenses can manipulate RF fields in MRI, potentially enhancing sensitivity and enabling RF field collimation for improved imaging techniques.

Contribution

It introduces novel applications of magnetic metamaterials in MRI, demonstrating their ability to control RF fields and improve imaging performance.

Findings

Magnetic metamaterial lenses can manipulate RF field distribution in MRI.

Use of these lenses can enhance surface coil sensitivity.

RF field collimation may benefit parallel imaging techniques.

Abstract

In this work some possible applications of negative permeability magnetic metamaterial lenses for magnetic resonance imaging (MRI) are analyzed. Metamaterials are artificial composites designed to have a given permittivity and/or permeability, including negative values for these constants. It is shown that using magnetic metamaterials lenses it is possible to manipulate the spatial distribution of the radio-frequency (RF) field used in MR systems and, under some circumstances, improve the sensitivity of surface coils. Furthermore a collimation of the RF field, phenomenon that may find application in parallel imaging, is presented. MR images of real tissues are shown in order to prove the suitability of the theoretical analysis for practical applications.