This monograph is a fundamental reference for scientists and engineers who encounter spin
processes in their work. The author, Ilya Kuprov, derives the concept of spin from basic …

Auxiliary matrix exponential method is used to derive simple and numerically efficient
general expressions for the following, historically rather cumbersome, and hard to compute …

Abstract Two new heterometallic Zn3Ln3 (Ln3+= Dy, Tb) complexes, with a double
triangular topology of the metal ions, have been assembled from the polytopic Mannich base …

This paper presents an overview of the Fokker-Planck formalism for non-biological magnetic
resonance simulations, describes its existing applications and proposes some novel ones …

In designing quantum control, it is generally required to simulate the controlled system
evolution with a classical computer. However, computing the time evolution operator can be …

Recently developed benchtop instruments have the potential of bringing the benefits of NMR
spectroscopy to the wide variety of industrial applications. Unfortunately, their low spectral …

Nuclear magnetic resonance spectroscopy is one of the few remaining areas of physical
chemistry for which polynomially scaling quantum mechanical simulation methods have not …

Work within this thesis advances optimal control algorithms for application to magnetic
resonance systems. Specifically, presenting a quadratically convergent version of the …

In EPR (electron paramagnetic resonance) spectroscopy, computer simulation and least-
squares fitting are essential in extracting quantitative structural and dynamic parameters …

Abstract We demonstrate that Fokker–Planck equations in which spatial coordinates are
treated on the same conceptual level as spin coordinates yield a convenient formalism for …