Three-body breakup within the fully discretized Faddeev equations

A general approach to a solution of few-and many-body scattering problems based on a continuum-discretization procedure is described in detail. The complete discretization of continuous spectrum is realized using stationary wave packets which are the normalized states constructed from exact non-normalized continuum states. Projecting the wave functions and all scattering operators like t-matrix, resolvent, etc. on such a wave-packet basis results in a formulation of quantum scattering problem entirely in terms of discrete elements and linear equations with regular matrices. It is demonstrated that there is a close relation between the above stationary wave packets and pseudostates which are employed often to approximate the scattering states with a finite L 2 basis. Such a fully discrete treatment of complicated few-and many-body scattering problems leads to significant simplification of their practical solution. Also we get finite-dimensional approximations for complicated operators like effective interactions between composite particles constructed via the Feshbach-type projection formalism. As illustrations to this general approach we consider several important particular problems including multichannel scattering and scattering in the three-nucleon system within the Faddeev framework.

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“…First of all, instead of eq. (94), one uses the equivalent form of the Faddeev equation for the transition operator U [29,42]:…”

Section: Formulation Of Faddeev Equations In Momentum Space and Peculmentioning

confidence: 99%

“…The elastic on-shell amplitude in the wave-packet representation is calculated as a diagonal (on-shell) matrix element of U-matrix [29]:…”

Section: Matrix Analog For the Faddeev Equation In The Wp Basismentioning

confidence: 99%

Wave-packet continuum discretization for quantum scattering

2015

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“…In this section we outline briefly the method of stationary wave packets that is necessary for understanding the subsequent material by reader. For detail we refer to our previous original papers [11,13] and the recent review [10].…”

Section: Continuum Discretization With Stationary Wave-packets In Fewmentioning

confidence: 99%

“…A matrix element of the operator P in the lattice basis is proportional to the overlap between basis functions defined in different Jacobi sets [11]. Such a matrix element can be calculated by integration with the weight functions over the momentum lattice cells:…”

Section: The Matrix Analog Of the Faddeev Equation And Its Featuresmentioning

confidence: 99%

“…(i) A complete discretization of the continuous spectrum of the scattering problem, i.e. the replacement of continuous momenta and energies with their discrete counterparts, by projecting all the scattering functions and operators onto a space spanned on the basis of the stationary wave packets [10,11,12,13]. As a result, the integral equations of the scattering theory (like the Lippmann-Schwinger, Faddeev etc.…”

Section: Introductionmentioning

confidence: 99%

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Fast GPU-based calculations in few-body quantum scattering

Pomerantsev

Kukulin

Rubtsova

et al. 2016

Computer Physics Communications

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A principally novel approach towards solving the few-particle (many-dimensional) quantum scattering problems is described. The approach is based on a complete discretization of few-particle continuum and usage of massively parallel computations of integral kernels for scattering equations by means of GPU. The discretization for continuous spectrum of a few-particle Hamiltonian is realized with a projection of all scattering operators and wave functions onto the stationary wave-packet basis. Such projection procedure leads to a replacement of singular multidimensional integral equations with linear matrix ones having finite matrix elements. Different aspects of the employment of a multithread GPU computing for fast calculation of the matrix kernel of the equation are studied in detail. As a result, the fully realistic three-body scattering problem above the break-up threshold is solved on an ordinary desktop PC with GPU for a rather small computational time.

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New Way in Few-Body Scattering Calculations

Kukulin

Rubtsova

2013

Few-Body Syst

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Three-body breakup within the fully discretized Faddeev equations

Cited by 17 publications

References 33 publications

Wave-packet continuum discretization for quantum scattering

Wave-packet continuum discretization for quantum scattering

Fast GPU-based calculations in few-body quantum scattering

New Way in Few-Body Scattering Calculations

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