Two-step high order hybrid explicit method for the numerical solution of the Schrödinger equation

New hybrid two-step method with optimized phase and stability characteristics ⋮ New Runge-Kutta type symmetric two-step method with optimized characteristics ⋮ A new fourteenth algebraic order finite difference method for the approximate solution of the Schrödinger equation ⋮ An economical eighth-order method for the approximation of the solution of the Schrödinger equation ⋮ A new two stage symmetric two-step method with vanished phase-lag and its first, second, third and fourth derivatives for the numerical solution of the radial Schrödinger equation ⋮ A new finite difference method with optimal phase and stability properties for problems in chemistry ⋮ Efficient FinDiff algorithm with optimal phase properties for problems in quantum chemistry ⋮ New FD methods with phase-lag and its derivatives equal to zero for periodic initial value problems ⋮ A new method with vanished phase-lag and its derivatives of the highest order for problems in quantum chemistry ⋮ A new FinDiff numerical scheme with phase-lag and its derivatives equal to zero for periodic initial value problems ⋮ New FD scheme with vanished phase-lag and its derivatives up to order six for problems in chemistry ⋮ A new algorithm with eliminated phase-lag and its derivatives up to order five for problems in quantum chemistry ⋮ A new four stages symmetric two-step method with vanished phase-lag and its first derivative for the numerical integration of the Schrödinger equation ⋮ A multistep method with optimal phase and stability properties for problems in quantum chemistry ⋮ A multistep conditionally P-stable method with phase properties of high order for problems in quantum chemistry ⋮ New five-stages finite difference pair with optimized phase properties ⋮ A five-stages symmetric method with improved phase properties ⋮ New five-stages two-step method with improved characteristics ⋮ A new high algebraic order four stages symmetric two-step method with vanished phase-lag and its first and second derivatives for the numerical solution of the Schrödinger equation and related problems ⋮ A phase-fitting and first derivative phase-fitting singularly P-stable economical two-step method for problems in quantum chemistry ⋮ A phase-fitting, first and second derivatives phase-fitting singularly P-stable economical two-step method for problems in chemistry ⋮ A phase-fitting, first, second and third derivatives phase-fitting singularly P-stable economical two-step method for problems in quantum chemistry ⋮ An efficient and computational effective method for second order problems ⋮ The use of phase lag and amplification error derivatives for the construction of a modified Runge-Kutta-Nyström method ⋮ A phase fitted FiniteDiffr process for DiffrntEqutns in chemistry ⋮ A complete in phase FiniteDiffrnc algorithm for DiffrntEqutins in chemistry ⋮ Full in phase finite difference algorithm for differential equations in quantum chemistry ⋮ New multiple stages two-step complete in phase algorithm with improved characteristics for second order initial/boundary value problems ⋮ New four stages multistep in phase algorithm with best possible properties for second order problems ⋮ New multistage two-step complete in phase scheme with improved properties for quantum chemistry problems ⋮ A new multistage multistep full in phase algorithm with optimized characteristics for problems in chemistry ⋮ A new four-stages two-step phase fitted scheme for problems in quantum chemistry ⋮ A new family of two stage symmetric two-step methods with vanished phase-lag and its derivatives for the numerical integration of the Schrödinger equation ⋮ Solution of quantum chemical problems using an extremely successful and reasonably cost two-step, fourteenth-order phase-fitting approach ⋮ Solution of quantum chemical problems by a very effective and relatively inexpensive two-step, fourteenth-order, phase-fitting procedure ⋮ An efficient and economical high order method for the numerical approximation of the Schrödinger equation ⋮ A generator of families of two-step numerical methods with free parameters and minimal phase-lag ⋮ Phase-fitting, singularly P-stable, cost-effective two-step approach to solving problems in quantum chemistry with vanishing phase-lag derivatives up to order 6 ⋮ Two-step, fourteenth-order, phase-fitting procedure with high efficiency and minimal cost for chemical problems ⋮ Highly efficient, singularly P-stable, and low-cost phase-fitting two-step method of 14th order for problems in chemistry ⋮ An exceedingly effective and inexpensive two-step, fourteenth-order phase-fitting method for solving quantum chemical issues ⋮ Phase fitted algorithm for problems in quantum chemistry ⋮ A finite difference method with zero phase-lag and its derivatives for quantum chemistry problems ⋮ Complete in phase method for problems in chemistry ⋮ A finite difference method with phase-lag and its derivatives equal to zero for problems in chemistry ⋮ A four stages numerical pair with optimal phase and stability properties ⋮ A finite difference pair with improved phase and stability properties ⋮ Solution to quantum chemistry problems using a phase-fitting, singularly P-stable, cost-effective two-step approach with disappearing phase-lag derivatives up to order 5 ⋮ A hybrid finite difference pair with maximum phase and stability properties ⋮ New finite difference pair with optimized phase and stability properties ⋮ A hybrid method with phase-lag and derivatives equal to zero for the numerical integration of the Schrödinger equation ⋮ New Runge-Kutta type symmetric two step finite difference pair with improved properties for second order initial and/or boundary value problems ⋮ A new multistep method with optimized characteristics for initial and/or boundary value problems ⋮ New multiple stages scheme with improved properties for second order problems ⋮ A two-step method with vanished phase-lag and its first two derivatives for the numerical solution of the Schrödinger equation ⋮ Two-step method with vanished phase-lag and its derivatives for problems in quantum chemistry: an economical case ⋮ An economical two-step method with optimal phase and stability properties for problems in chemistry ⋮ New three-stages symmetric two step method with improved properties for second order initial/boundary value problems ⋮ New hybrid symmetric two step scheme with optimized characteristics for second order problems ⋮ A low computational cost eight algebraic order hybrid method with vanished phase-lag and its first, second, third and fourth derivatives for the approximate solution of the Schrödinger equation ⋮ A new two-step finite difference pair with optimal properties ⋮ A three-stages multistep teeming in phase algorithm for computational problems in chemistry ⋮ A four-stages multistep fraught in phase method for quantum chemistry problems ⋮ A smooth approximation based on exponential spline solutions for nonlinear fourth order two point boundary value problems ⋮ High order closed Newton-Cotes exponentially and trigonometrically fitted formulae as multilayer symplectic integrators and their application to the radial Schrödinger equation ⋮ An accomplished phase FD process for DEs in chemistry ⋮ A new economical method with eliminated phase-lag and its derivative for problems in chemistry ⋮ A new method with improved phase-lag and stability properties for problems in quantum chemistry - an economical case ⋮ An economical two-step method with improved phase and stability properties for problems in chemistry ⋮ A new improved economical finite difference method for problems in quantum chemistry ⋮ An integrated in phase FD procedure for DiffEqns in chemical problems ⋮ Algorithm for the development of families of numerical methods based on phase-lag Taylor series ⋮ A phase fitted FinDiff process for DifEquns in quantum chemistry ⋮ A complete in phase FinitDiff procedure for DiffEquns in chemistry ⋮ A phase-fitting singularly P-stable economical two-step method for problems in quantum chemistry ⋮ A singularly P-stable two-step method with improved characteristics for problems in chemistry ⋮ A multistage two-step fraught in phase scheme for problems in mathematical chemistry ⋮ A Runge-Kutta type crowded in phase algorithm for quantum chemistry problems ⋮ Phase fitted method for quantum chemistry problems ⋮ A phase-fitting singularly P-stable cost-effective two-step method for solving chemistry problems ⋮ A perfect in phase FD algorithm for problems in quantum chemistry ⋮ A multiple stage absolute in phase scheme for chemistry problems ⋮ A Runge-Kutta type implicit high algebraic order two-step method with vanished phase-lag and its first, second, third and fourth derivatives for the numerical solution of coupled differential equations arising from the Schrödinger equation ⋮ A two-step method singularly P-Stable with improved properties for problems in quantum chemistry ⋮ A two-step singularly P-Stable method with high phase and large stability properties for problems in chemistry

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• A family of four-step trigonometrically-fitted methods and its application to the Schrödinger equation
• Closed Newton-Cotes trigonometrically-fitted formulae of high order for the numerical integration of the Schrödinger equation
• A new method for the numerical solution of fourth-order BVP's with oscillating solutions
• P-stable linear symmetric multistep methods for periodic initial-value problems
• A phase-fitted Runge-Kutta-Nyström method for the numerical solution of initial value problems with oscillating solutions
• Special issue: Mathematical chemistry based on papers presented within international conference on computational methods in sciences and engineering (ICCMSE 2005), Loutraki, Korinthos, Greece, October 21--26, 2005.
• Closed Newton-Cotes trigonometrically-fitted formulae of high order for long-time integration of orbital problems
• A four-step phase-fitted method for the numerical integration of second order initial-value problems
• A Numerov-type method for the numerical solution of the radial Schrödinger equation
• A family of two-stage two-step methods for the numerical integration of the Schrödinger equation and related IVPs with oscillating solution
• Two optimized symmetric eight-step implicit methods for initial-value problems with oscillating solutions
• A new two-step hybrid method for the numerical solution of the Schrödinger equation
• Trigonometrically fitted and exponentially fitted symplectic methods for the numerical integration of the Schrödinger equation
• The numerical solution of the radial Schrödinger equation via a trigonometrically fitted family of seventh algebraic order predictor-corrector methods
• A four-step exponentially fitted method for the numerical solution of the Schrödinger equation
• A family of exponentially-fitted Runge-Kutta methods with exponential order up to three for the numerical solution of the Schrödinger equation
• A four-step method for the numerical solution of the Schrödinger equation
• Exponentially and trigonometrically fitted methods for the solution of the Schrödinger equation
• A new Numerov-type method for the numerical solution of the Schrödinger equation
• Unconditionally stable Noumerov-type methods for second order differential equations
• A Noumerov-type method with minimal phase-lag for the integration of second order periodic initial-value problems
• Two-step methods for the numerical solution of the Schrödinger equation
• Explicit two-step methods with minimal phase-lag for the numerical integration of special second-order initial-value problems and their application to the one-dimensional Schrödinger equation
• A fourth-order Bessel fitting method for the numerical solution of the Schrödinger equation
• A low-order embedded Runge-Kutta method for periodic initial-value problems
• A method for computing phase shifts for scattering
• Some embedded modified Runge-Kutta methods for the numerical solution of some specific Schrödinger equations
• An accurate finite difference method for the numerical solution of the Schrödinger equation
• Runge-Kutta interpolants with minimal phase-lag
• A high order predictor-corrector method for periodic IVPs
• Runge-Kutta-Nyström interpolants for the numerical integration of special second-order peridic initial-value problems
• A family of four-step exponential fitted methods for the numerical integration of the radial Schrödinger equation
• A Runge-Kutta-Nyström method for the numerical integration of special second-order periodic initial-value problems
• A modified Runge-Kutta method for the numerical solution of ODE's with oscillation solutions
• A finite-difference method for the numerical solution of the Schrödinger equation
• An extended Numerov-type method for the numerical solution of the Schrödinger equation
• A family of hybrid exponentially fitted predictor-corrector methods for the numerical integration of the radial Schrödinger equation
• Eighth order methods with minimal phase-lag for accurate computations for the elastic scattering phase-shift problem
• Newton--Cotes formulae for long-time integration.
• Symplectic integrators for the numerical solution of the Schrödinger equation
• A generator of hybrid symmetric four-step methods for the numerical solution of the Schrödinger equation
• Trigonometrically fitted predictor--corrector methods for IVPs with oscillating solutions
• A family of trigonometrically-fitted symmetric methods for the efficient solution of the Schrödinger equation and related problems
• Symplectic methods for the numerical solution of the radial Schrödinger equation
• Special issue: Selected papers from the conference on computational and mathematical methods for science and engineering (CMMSE-2002), Alicante, Spain, 20--25 September 2002
• Zero dissipative, explicit Numerov-type methods for second order IVPs with oscillating solutions
• An exponentially-fitted and trigonometrically-fitted method for the numerical solution of periodic initial-value problems.
• Symplectic methods of fifth order for the numerical solution of the radial Schrödinger equation
• A \(P\)-stable exponentially fitted method for the numerical integration of the Schrödinger equation
• Embedded eighth order methods for the numerical solution of the Schrödinger equation
• Exponentially-fitted Runge-Kutta-Nyström method for the numerical solution of initial-value problems with oscillating solutions
• Symmetric eighth algebraic order methods with minimal phase-lag for the numerical solution of the Schrödinger equation
• Construction of trigonometrically and exponentially fitted Runge--Kutta--Nyström methods for the numerical solution of the Schrödinger equation and related problems -- a method of 8th algebraic order
• Dissipative trigonometrically-fitted methods for linear second-order IVPs with oscillating solution.
• An optimized Runge-Kutta method for the solution of orbital problems
• A fourth algebraic order trigonometrically fitted predictor-corrector scheme for IVPs with oscillating solutions
• Multiderivative methods of eighth algebraic order with minimal phase-lag for the numerical solution of the radial Schrödinger equation
• Runge-Kutta methods with minimal dispersion and dissipation for problems arising from computational acoustics
• A new hybrid imbedded variable-step procedure for the numerical integration of the Schrödinger equation
• An exponentially fitted eighth-order method for the numerical solution of the Schrödinger equation
• Comparison of some four-step methods for the numerical solution of the Schrödinger equation
• Optimized Runge-Kutta pairs for problems with oscillating solutions
• New P-stable eighth algebraic order exponentially-fitted methods for the numerical integration of the Schrödinger equation
• Family of twelve steps exponential fitting symmetric multistep methods for the numerical solution of the Schrödinger equation
• Exponentially-fitted multiderivative methods for the numerical solution of the Schrödinger equation
• An explicit four-step phase-fitted method for the numerical integration of second-order initial-value problems
• A two-step method for the numerical solution of the radial Schrödinger equation
• A family of four-step exponentially fitted predictor-corrector methods for the numerical integration of the Schrödinger equation
• Block Runge-Kutta methods for periodic initial-value problems
• Embedded methods for the numerical solution of the Schrödinger equation
• A family of Numerov-type exponentially fitted predictor-corrector methods for the numerical integration of the radial Schrödinger equation
• A generator of high-order embedded \(P\)-stable methods for the numerical solution of the Schrödinger equation
• A family of \(P\)-stable exponentially-fitted methods for the numerical solution of the Schrödinger equation
• Optimization as a function of the phase-lag order of nonlinear explicit two-step \(P\)-stable method for linear periodic IVPs
• A Runge-Kutta Fehlberg method with phase-lag of order infinity for initial-value problems with oscillating solution
• A new variable-step method for the numerical integration of special second-order initial value problems and their application to the one- dimensional Schrödinger equation
• New second-order exponentially and trigonometrically fitted symplectic integrators for the numerical solution of the time-independent Schrödinger equation
• Exponentially fitted symplectic methods for the numerical integration of the Schrödinger equation
• Numerical solution of the two-dimensional time independent Schrödinger equation with Numerov-type methods
• Trigonometrically fitted Runge-Kutta methods for the numerical solution of the Schrödinger equation
• Sixth algebraic order trigonometrically fitted predictor-corrector methods for the numerical solution of the radial Schrödinger equation
• A family of multiderivative methods for the numerical solution of the Schrödinger equation
• Special issue: The international conference on computational methods in sciences and engineering 2004 (ICCMSE-2004), Vouliagmeni, Greece, November 19--23, 2004. Selected papers based on the presentation at the conference.
• A fourth algebraic order exponentially-fitted Runge-Kutta method for the numerical solution of the Schrodinger equation
• Some New Four-Step Exponential-Fitting Methods for the Numerical Solution of the Radical Schrödinger Equation
• STABILIZATION OF A FOUR-STEP EXPONENTIALLY-FITTED METHOD AND ITS APPLICATION TO THE SCHRÖDINGER EQUATION
• Blended General Linear Methods based on Boundary Value Methods in the GBDF family
• Symmetric Multistip Methods for Periodic Initial Value Problems
• Two-step almost p-stable complete in phase methods for the numerical integration of second order periodic initial-value problems
• AN EXPLICIT HIGH ORDER PREDICTOR-CORRECTOR METHOD FOR PERIODIC INITIAL VALUE PROBLEMS
• On finite difference methods for the solution of the Schrödinger equation
• A P-stable exponentially-fitted method for the numerical integration of the Schrödinger equation
• Linear Multistep Methods for the Efficient Integration of the Schrödinger Equation
• A new explicit Bessel and Neumann fitted eighth algebraic order method for the numerical solution of the Schrödinger equation
• Bessel and Neumann fitted methods for the numerical solution of the Schrödinger equation
• A family of P-stable eighth algebraic order methods with exponential fitting facilities
• A generator and an optimized generator of high-order hybrid explicit methods for the numerical solution of the Schrödinger equation. I: Development of the basic method
• A generator and an optimized generator of high-order hybrid explicit methods for the numerical solution of the Schrödinger equation. II: Development of the generator, optimization of the generator and numerical results
• A modified phase-fitted Runge-Kutta method for the numerical solution of the Schrödinger equation
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