Multiple quantum NMR dynamics in a gas of spin-carrying molecules in fluctuating nanopores

TL;DR

This paper studies how Gaussian fluctuations in nanopores affect multiple quantum NMR dynamics of spin-carrying gases, revealing that fluctuations smooth out coherence oscillations and influence cluster growth and decay.

Contribution

It introduces an analysis of Gaussian fluctuation effects on MQ NMR in nanopores, highlighting their impact on coherence dynamics and cluster behavior.

Findings

Fluctuations smooth out MQ NMR coherence oscillations.

Fluctuations influence the growth and decay of MQ coherence clusters.

Rapid oscillations are suppressed by nanopore fluctuations.

Abstract

The effect of Gaussian fluctuations of nanopores filled with a gas of spin-carrying molecules ($s=1/2$) on the multiple quantum (MQ) NMR dynamics is investigated at different variances and correlation times of the fluctuations. We show that the fluctuations smooth out the evolution of MQ NMR coherence intensities which rapidly oscillate as functions of time in the absence of fluctuations. The growth and decay of the MQ coherence clusters in the fluctuating nanopore are also investigated.