Simulation of many-spin system dynamics via sparse matrix methodology Journal Articles

abstract

• A sparse-matrix-based numerical method is constructed to simulate NMR spectra of many-spin systems, including the effects of chemical exchange and/or relaxation. The associated computational demands are predicted to scale like O(22n), as the number of spins n increases. This is vastly superior to the inevitable O(26n) scaling of conventional Householder-based methodology. The improved scaling is verified via numerical computations of simple isomerization systems with four to nine spins. The new method is based on splitting the propagator and use of Chebyshev polynomial expansion of the exponential function.

authors

• Dumont, Randall
• Jain, Shashi
• Bain, Alex

status

• published 

publication date

• April 8, 1997

has subject area

• 02 Physical Sciences (FoR)
• 03 Chemical Sciences (FoR)
• 09 Engineering (FoR)
• Chemical Physics (Science Metrix)

published in

• Journal of Chemical Physics  Journal

keywords

• BASIS-SETS
• Chemistry
• Chemistry, Physical
• DEPENDENT SCHRODINGER-EQUATION
• FOKKER-PLANCK FORMS
• LANCZOS-ALGORITHM
• NMR
• Physical Sciences
• Physics
• Physics, Atomic, Molecular & Chemical
• RESONANCE SPECTRA
• Science & Technology

Digital Object Identifier (DOI)

• 10.1063/1.473258

start page

• 5928

end page

• 5936

volume

• 106

issue

• 14