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Inverse scattering: an illicit reflection coefficient
Inverse Problems, 1986A generalisation of the reflection coefficient that leads, via the Marchenko equation, to a \(\delta\)-distribution Schrödinger potential, is analysed. The case of the 'super-reflector' is considered and its anomalies are scrutinised.
Atkinson, D., Geschiere, J.
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Soviet Journal of Quantum Electronics, 1976
Classical equations for three interacting waves are used in a description of inverse Raman scattering (IRS), which is the interaction of two (monochromatic and wide-band) pump waves with vibrational transitions in matter. The conditions for the observation of IRS are described, and its advantages and disadvantages compared with the normal Raman ...
A Lau +4 more
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Classical equations for three interacting waves are used in a description of inverse Raman scattering (IRS), which is the interaction of two (monochromatic and wide-band) pump waves with vibrational transitions in matter. The conditions for the observation of IRS are described, and its advantages and disadvantages compared with the normal Raman ...
A Lau +4 more
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Three-dimensional inverse scattering
1986We consider the problem of obtaining information about an inaccessible region of space from scattering experiments. Inverse scattering theory for the time-independent Schrodinger equation [Δ + h2−V(x)]φ(k,x) = 0 is summarized. It is most easily understood by considering the associated hyperbolic equation [Δ −aaa − V(x)]u(t,x) = 0.
Margaret Cheney +2 more
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Inverse scattering inverse source theory
Journal of Mathematical Physics, 1981The inverse scattering inverse source problem associated with the inhomogeneous Helmholtz wave equation, the (special case) Sturm–Liouville (acoustic wave) equation, and the time-independent Schrödinger equation is treated . To this end, the concepts of a reference wave velocity and an associated free reference space Green’s function spectrum are ...
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Scattering and Inverse Scattering
1993For a given potential, the scattering method has been commonly used to find the wave functions in quantum mechanics. An inverse process of this scattering is to find the potential from known scattering data. Such a process is called the inverse scattering method. If the potential satisfies a nonlinear evolution equation (the differential equation u t =
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Journal of the Korean Physical Society, 2014
Using recent data, we calculate the heavy-ion optical-model potential via an inversion solution that had been previously obtained based on the McIntyre parametrization of the S-matrix.The results are compared with previous works and with the recently-available experimental data for the 12 C -12 C system.
S. A. Aldenfariya, A. M. Awin
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Using recent data, we calculate the heavy-ion optical-model potential via an inversion solution that had been previously obtained based on the McIntyre parametrization of the S-matrix.The results are compared with previous works and with the recently-available experimental data for the 12 C -12 C system.
S. A. Aldenfariya, A. M. Awin
openaire +1 more source