Wireless power transfer in magnetic resonance imaging at a higher-order mode of a birdcage coil

TL;DR

This paper introduces a novel wireless power transfer method in MRI using higher-order modes of a birdcage coil, enabling energy transmission without additional coils or interference during scanning.

Contribution

The proposed approach leverages higher-order modes of the MRI birdcage coil for wireless power transfer, eliminating the need for extra transmitting coils and maintaining safety and scan integrity.

Findings

Numerical simulations show effective energy transfer using higher-order modes.

The method does not interfere with MRI scanning signals.

Experimental validation confirms the simulation results.

Abstract

Magnetic resonance imaging (MRI) is a crucial tool for medical visualization. In many cases, performing a scanning procedure requires the use of additional equipment, which can be powered by wires as well as via wireless power transfer (WPT) or wireless energy harvesting. In this Letter, we propose a novel scheme for WPT that uses a higher-order mode of the MRI scanner's birdcage coil for energy transmission. In contrast to the existing WPT solutions, our approach does not require additional transmitting coils. Compared to the energy harvesting, the proposed method allows supplying significantly more power. We perform numerical simulations demonstrating that one can use the fundamental mode of the birdcage coil to perform a scanning procedure while transmitting the energy to the receiver at a higher-order mode without any interference with the scanning signal or violation of safety constraints, as guaranteed by the mode structure of the birdcage. Also, we evaluate the specific absorption rate along with the energy transfer efficiency and verify our numerical model by a direct comparison with an experimental setup featuring a birdcage coil of a 1.5T MRI scanner.