Formalized quantum mechanical Floquet theory and its application to sample spinning in nuclear magnetic resonance
- 10 December 1995
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 86 (5), 1195-1212
- https://doi.org/10.1080/00268979500102671
Abstract
Quantum mechanical Floquet theory, a powerful tool for the solution of Schrödinger equations with a periodically time-dependent Hamiltonian is formalized by the systematic usage of the Floquet Hilbert space, the Floquet density operator, Floquet detection operators, and of the Floquet Liouville space. A concise description is obtained that is useful in analytical calculations and for computer simulations. It is implemented in the context of the general computational environment ‘GAMMA’. Simplified expressions are derived for single-axis and double-axis sample-spinning experiments in NMR.Keywords
This publication has 56 references indexed in Scilit:
- A stationary treatment of time-dependent Hamiltonian by the many-mode floquet formalism and its application to the study of effects of laser pulses in multiphoton processesChemical Physics Letters, 1994
- Two-state systems in semiclassical and quantized fieldsThe Journal of Physical Chemistry, 1984
- Principles of High Resolution NMR in SolidsPublished by Springer Nature ,1983
- Floquet theory and applicationsPhysical Review A, 1977
- Steady States and Quasienergies of a Quantum-Mechanical System in an Oscillating FieldPhysical Review A, 1973
- Coherent Averaging Effects in Magnetic ResonancePhysical Review B, 1968
- Solution of the Schrödinger Equation with a Hamiltonian Periodic in TimePhysical Review B, 1965
- Removal of Dipolar Broadening of Nuclear Magnetic Resonance Spectra of Solids by Specimen RotationNature, 1959
- Free Induction Decays of Rotating SolidsPhysical Review Letters, 1959
- Nuclear Magnetic Resonance Spectra from a Crystal rotated at High SpeedNature, 1958