Formal Theory of Spin–Lattice Relaxation

## Abstract A molecular theory is presented for the field‐dependent spin‐lattice relaxation time of water in tissue. The theory attributes the large relaxation enhancement observed at low frequencies to intermediary protons in labile groups or internal water molecules that act as relaxation sinks f

The temperature dependence of the spin-lattice relaxation of qualitatively by a relaxation process which involves hemedenatured nitrosyl hemoglobin (HbNO), nitrosyl myoglobin, powheme magnetic dipolar interactions between both kinds of dered HbNO, and hematin-NO was studied between 4 and 70 K. subun

The \(T_{1}\) and \(T_{2}\) relaxation times in porous media have been greatly used in the field of petrophysics and biology. The relaxation behavior can be used as a fingerprint of a system, or can provide information on some other parameters which cannot be easily measured. In this paper, we inves

The spin-lattice relaxation of ten polychloroalkanes (ethanes to pentanes) have been studied both neat and in a 50% solution in CDC13. The Tl values for the CH,, CH,Cl and CHCl, carbons decrease with increasing molecular weight in accordance with a dipolar-dominated mechanism, whereas those of the C