Add to ORKGWe show that the minimization of the variance integral provides a method for the determination of scattering wave functions which uses discrete basis functions exclusively. By using a separable representation of the scattering potential only one new class of matrix elements appears in the evaluation of the variance integral which is not already required in the diagonalization of the Hamiltonian. The choice of Gaussian basis functions for the expansion of the scattering wave function should make the method particularly applicable to electron-molecule scattering. Some advantages and limitations of the method are discussed
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
A method is described for computing scattering amplitudes for a cylindrically symmetric potential us...
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one o...
The authors discuss two discrete-basis-function approaches to the solution of the T-matrix equations...
We present a method for calculating the continuum wave function in electron-molecule scattering for ...
We present a method for including a variational correction in the discrete-basis-set method for elec...
A method of calculating scattering amplitudes for nonspherical potentials is proposed. The Lippmann-...
Abstract. We present a simple, approximate method for calculating low-energy electron-molecule scatt...
A method is proposed for reducing the complexity of scattering calculations carried out using the Ko...
[[abstract]]The use of the contracted basis functions is a very powerful and widely used techn...
The approach to solving few-body scattering problems in a discrete representation of the stationary ...
Calculations are reported for low-energy e-N2 scattering cross sections in the static-exchange appro...
A novel discrete variable representation (DVR) is introduced for use as the L2 basis of the S‐matrix...
We present a simple, approximate method for calculating low-energy electron-molecule scattering cros...
The authors present the results of applications of the Schwinger variational principle to the scatte...
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
A method is described for computing scattering amplitudes for a cylindrically symmetric potential us...
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one o...
The authors discuss two discrete-basis-function approaches to the solution of the T-matrix equations...
We present a method for calculating the continuum wave function in electron-molecule scattering for ...
We present a method for including a variational correction in the discrete-basis-set method for elec...
A method of calculating scattering amplitudes for nonspherical potentials is proposed. The Lippmann-...
Abstract. We present a simple, approximate method for calculating low-energy electron-molecule scatt...
A method is proposed for reducing the complexity of scattering calculations carried out using the Ko...
[[abstract]]The use of the contracted basis functions is a very powerful and widely used techn...
The approach to solving few-body scattering problems in a discrete representation of the stationary ...
Calculations are reported for low-energy e-N2 scattering cross sections in the static-exchange appro...
A novel discrete variable representation (DVR) is introduced for use as the L2 basis of the S‐matrix...
We present a simple, approximate method for calculating low-energy electron-molecule scattering cros...
The authors present the results of applications of the Schwinger variational principle to the scatte...
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
A method is described for computing scattering amplitudes for a cylindrically symmetric potential us...
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one o...