Solenoidal Microcoil Design. Part II: Optimizing Winding Parameters for Maximum Signal-to-Noise Performance

May 1, 2001

Journal Article

Solenoidal Microcoil Design. Part II: Optimizing Winding Parameters for Maximum Signal-to-Noise Performance

Abstract

In high-field proton NMR, the signal-to-noise ratio (SNR) achieved with a close-fitting solenoidal microcoil is adversely affected by radio frequency (RF) losses in the coil, its leads, the capacitor used to tune it, and finally, the sample. In Part II, a rigorous description of these various losses is presented, and their severity is related to the details of coil design. Results not only provide a rational basis for defining a microcoil's optimal wire diameter and the number of turns, but also for evaluating how the SNR varies with coil size and NMR frequency in high-field proton NMR studies involving either conducting or non-conducting samples.

Revised: May 3, 2001 | Published: May 1, 2001

Citation

Minard K.R., and R.A. Wind. 2001. Solenoidal Microcoil Design. Part II: Optimizing Winding Parameters for Maximum Signal-to-Noise Performance. Concepts in Magenetic Resonance 13, no. 3:190-210. PNNL-SA-34427.