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An efficient birdcage resonator at 2.5 MHz using a novel multilayer self-capacitance construction technique (1995)

Yeung, David ; Hutchison, James M. S. ; Lurie, David J.

Springer

Magnetic resonance materials in physics, biology and medicine 3 (1995), S. 163-168

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ISSN: 1352-8661

Keywords: RF coils ; birdcage coil ; coil losses ; capacitors ; low-frequency low-field MRI

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Physics

Notes: Abstract The birdcage resonator, well appreciated for its high signal-to-noise ratio and its magnetic field uniformity characteristics, operates efficiently in mid- to high-field MRI systems but, unfortunately not for low-field (〈0.4 T) applications. The inherently low inductance of the birdcage architecture is the main obstacle to achieving low-frequency resonance because of the need to use very high-value capacitors for the tuning. Small-case-size, high-value ceramic capacitors are known to have high dissipation factors which when used in the fabrication of RF coils could result in poor efficiency. To overcome this limitation, a novel technique known as multilayer self-capacitance (MLSC) construction has been developed and a prototype 2.5-MHz bird-cage resonator of length 25 cm and diameter 20 cm has been built. The technique involves the modification of the leg sections of the conductors constituting the bird cage into integrated capacitors using very low-loss materials as dielectrics. The observed unloaded Q-factor was 267 using the MLSC construction, and when loaded with a 16-cm-diameter bottle of 0.45% saline, its Q dropped to 246, The RF field uniformity plots have demonstrated that the MLSC technique has no adverse effects on the magnetic field homogeneity of the bird-cage resonator.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01771702

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Continuous-wave NMR imaging of solids (1996)

Lurie, David J. ; Mccallum, Stephen J. ; Hutchison, James M. S. ; [et al.]

Springer

Magnetic resonance materials in physics, biology and medicine 4 (1996), S. 77-81

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ISSN: 1352-8661

Keywords: continuous wave ; swept field ; imaging ; solids ; high field

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Physics

Notes: Abstract Current pulsed nuclear magnetic resonance methods of imaging samples such as solids with short spin-spin relaxation times are restricted to use with T2 values longer than approximately 10 µs. In the present study a method of imaging ultra-short T2 samples using continuous-wave, swept-field NMR is presented that, in principle, will be able to overcome this restriction. The technique is identical to that used in continuous-wave electron paramagnetic resonance imaging of paramagnetic species and involves irradiating the sample continuously with a radiofrequency excitation in the presence of a strong stationary magnetic field gradient. When the main magnetic field is swept over a suitable range, the variation of the NMR absorption signal with applied magnetic field yields a one-dimensional projection of the object under study along the gradient direction. Two- or three-dimensional image data sets may be reconstructed from projections that are obtained by applying the gradient in different directions. Signal-to-noise ratio can be improved by modulating the magnetic field and employing a lock-in amplifier to recover signal variations at the audio modulation frequency. Preliminary experiments were performed using a 7 Tesla magnet and a 300 MHz continuous-wave radiofrequency bridge with lock-in detection. The apparatus is described and the results of pilot experiments that employed vulcanized rubber samples are presented. The ability of the technique to detect short T2 samples was demonstrated by the presence of a background signal from the Perspex former of the birdcage resonator used for signal reception.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01759783

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