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Bibliographic Details
Main Authors: Maurya, Santosh Kumar, Goldberg, Ilan, Schmidt, Rita
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.22952
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author Maurya, Santosh Kumar
Goldberg, Ilan
Schmidt, Rita
author_facet Maurya, Santosh Kumar
Goldberg, Ilan
Schmidt, Rita
contents Emerging concepts of metamaterials for MRI offer improved image quality through enhanced RF field control. However, current designs are often limited by bulky configurations, dielectric losses, and limited adaptability. Patient-specific optimization - essential for improving field homogeneity, boosting local SNR, and addressing anatomical variability - requires redesigning each setup. To overcome these limitations, we introduce a hexagonally-packed artificial dielectric, free of any lumped-elements, capable of achieving a wide range of high relative permittivities (30-1400) suitable for clinical and ultra-high-field MRI. We identify multilayered and in-plane-shifted hexagonal configurations that support compact, modular layouts. Furthermore, we combine these artificial dielectrics with dipole arrays to create a modular system for adaptable signal enhancement, tuned via electric and magnetic dipole modes by adjusting the length of conductive strips. In-vivo 7T MRI results demonstrate enhanced field control and high-resolution imaging. This lightweight, flexible, and modular platform enables patient-specific RF field shaping, thus opening up new avenues for personalized and adaptable MRI technology.
format Preprint
id arxiv_https___arxiv_org_abs_2512_22952
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modular Metamaterials for Adaptable MRI Signal Control: Combining Dipole Arrays with Hexagon-based Artificial Dielectrics
Maurya, Santosh Kumar
Goldberg, Ilan
Schmidt, Rita
Medical Physics
Emerging concepts of metamaterials for MRI offer improved image quality through enhanced RF field control. However, current designs are often limited by bulky configurations, dielectric losses, and limited adaptability. Patient-specific optimization - essential for improving field homogeneity, boosting local SNR, and addressing anatomical variability - requires redesigning each setup. To overcome these limitations, we introduce a hexagonally-packed artificial dielectric, free of any lumped-elements, capable of achieving a wide range of high relative permittivities (30-1400) suitable for clinical and ultra-high-field MRI. We identify multilayered and in-plane-shifted hexagonal configurations that support compact, modular layouts. Furthermore, we combine these artificial dielectrics with dipole arrays to create a modular system for adaptable signal enhancement, tuned via electric and magnetic dipole modes by adjusting the length of conductive strips. In-vivo 7T MRI results demonstrate enhanced field control and high-resolution imaging. This lightweight, flexible, and modular platform enables patient-specific RF field shaping, thus opening up new avenues for personalized and adaptable MRI technology.
title Modular Metamaterials for Adaptable MRI Signal Control: Combining Dipole Arrays with Hexagon-based Artificial Dielectrics
topic Medical Physics
url https://arxiv.org/abs/2512.22952