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A reduced-restricted-quasi-Newton-Raphson method for locating and optimizing energy crossing points between two potential energy surfaces
104
Citations
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References
1997
Year
Numerical AnalysisGeometric ModelingLocalized Excited StateEngineeringPotential Energy SurfacesPhysicsNumerical ComputationNatural SciencesIntersection Energy PointReduced-restricted-quasi-newton-raphson MethodEnergy MinimizationComputational ChemistryNonlinear OptimizationComputational MechanicsEnergyComputational GeometryExcited State EnergyRestricted Step
We present a method for the location and optimization of an intersection energy point between two potential energy surfaces. The procedure directly optimizes the excited state energy using a quasi-Newton–Raphson method coupled with a restricted step algorithm. A linear transformation is also used for the solution of the quasi-Newton–Raphson equations. The efficiency of the algorithm is analyzed and demonstrated in some examples. © 1997 John Wiley & Sons, Inc. J Comput Chem 18:992–1003, 1997
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