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NSR database version of May 3, 2024.

Search: Author = M.Munchow

Found 4 matches.

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1987GU23      J.Phys.(Paris), Colloq.C-2, 255 (1987)

R.K.Gupta, M.Munchow, R.Maass, W.Scheid

Classical Dynamics of Damping Effects and of Sub-Coulomb Transfer in Collisions of Deformed Heavy Ions: ²³⁸U + ²³⁸U Reaction

NUCLEAR REACTIONS ²³⁸U(²³⁸U, X), E=5.05-6.07, 7.42 MeV/nucleon; calculated total kinetic energy, σ(θ). Classical dynamical model.

1987MU11      Nucl.Phys. A468, 59 (1987)

M.Munchow, W.Scheid

Frictional Forces for Deep Inelastic Heavy Ion Collisions of Deformed Nuclei and Application to ²³⁸U on ²³⁸U

NUCLEAR REACTIONS ²³⁸U(²³⁸U, X), E=7.42 MeV/nucleon; calculated σ(fragment θ, E), σ(θ), σ. Classical model, frictional forces.

doi: 10.1016/0375-9474(87)90319-8
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1984GU03      J.Phys.(London) G10, 209 (1984)

R.K.Gupta, M.Munchow, A.Sandulescu, W.Scheid

A Quantum-Mechanical Model of Coupled Proton and Neutron Asymmetries and the Fast Charge Equilibration Process in Deep-Inelastic Collisions

NUCLEAR REACTIONS ^116,124Sn(¹²⁹Xe, X), E=780 MeV; calculated fragment N, Z distribution variances vs energy loss. Deep inelastic reactions, quantum mechanical model of coupled harmonic oscillators.

doi: 10.1088/0305-4616/10/2/012
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1984MA29      Phys.Lett. 141B, 1 (1984)

K.-E.May, M.Munchow, W.Scheid

The Modified Newton Method for the Solution of the Inverse Scattering Problem with Charged Particles at Fixed Energy

NUCLEAR REACTIONS ¹⁶O(¹⁶O, ¹⁶O), E(cm)=20 MeV; ¹²C(¹⁶O, ¹⁶O), E=168 MeV; calculated potential parameters. Inverse scattering problem, modified Newton method.

doi: 10.1016/0370-2693(84)90545-8
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