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Topologically optimized magnetic lens for magnetic resonance applications (DataSet)

Wadhwa, Sagar; Jouda, Mazin ORCID iD icon; Deng, Yongbo; Nassar, Omar; Mager, Dario ORCID iD icon; Korvink, Jan G.; Wadhwa, Sagar [Beteiligte*r]; Jouda, Mazin [Beteiligte*r] ORCID iD icon; Deng, Yongbo [Beteiligte*r]; Nassar, Omar [Beteiligte*r]; Mager, Dario [Beteiligte*r] ORCID iD icon; Korvink, Jan G. [Beteiligte*r]

Abstract:

Improvements to the signal-to-noise ratio of magnetic resonance detection lead to a strong reduction in measurement time, yet as a sole optimization goal for resonator design, it would be an oversimplification of the problem at hand. Multiple constraints, for example for field homogeneity and sample shape, suggest the use of numerical optimization to obtain resonator designs that deliver the intended improvement. Here we consider the 2D Lenz lens to be a sufficiently broadband flux transforming interposer between the sample and a radiofrequency (RF) circuit and to be a flexible and easily manufacturable device family with which to mediate different design requirements.We report on a method to apply topology optimization to determine the optimal layout of a Lenz lens and demonstrate realizations for both low- (45 MHz) and high-frequency (500 MHz) nuclear magnetic resonance.


Zugehörige Institution(en) am KIT Institut für Mikrostrukturtechnik (IMT)
Publikationstyp Forschungsdaten
Publikationsdatum 31.01.2022
Erstellungsdatum 12.10.2020 - 12.10.2020
Identifikator DOI: 10.5445/IR/1000142493
KITopen-ID: 1000142493
Weitere HGF-Programme 43.70.01 (POF III, LK 01) VirtMat
Lizenz Creative Commons Namensnennung – Nicht kommerziell 4.0 International
Projektinformation Metacoils (DFG, DFG EIN, KO 1883/20-1)
TISuMR (EU, H2020, 737043)
DFG-Screening-ASIC (DFG, DFG EIN, KO 1883/29-1)
Vorab online veröffentlicht am 27.01.2022
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