A Model for the Reaction at Intermediate Energies | Zendy

H. Kamada | Zendy; Т. Уесака | Zendy; W. Glöckle | Zendy; H. Sakai | Zendy; S. Gojuki | Zendy; K. Itoh | Zendy; T. Ohnishi | Zendy; Hiroshi Okamura | Zendy; N. Sakamoto | Zendy; S. Sakoda | Zendy; Y. Satou | Zendy; K. Sekiguchi | Zendy; K. Suda | Zendy; A. Tamii | Zendy; T. Wakasa | Zendy; H. Witała | Zendy; K. Yako | Zendy

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A Model for the Reaction at Intermediate Energies

Author(s) -

H. Kamada,

Т. Уесака,

W. Glöckle,

H. Sakai,

S. Gojuki,

K. Itoh,

T. Ohnishi,

Hiroshi Okamura,

N. Sakamoto,

S. Sakoda,

Y. Satou,

K. Sekiguchi,

K. Suda,

A. Tamii,

T. Wakasa,

H. Witała,

K. Yako

Publication year - 2000

Publication title -

progress of theoretical physics

Language(s) - English

Resource type - Journals

eISSN - 1347-4081

pISSN - 0033-068X

DOI - 10.1143/ptp.104.703

Subject(s) - physics , deuterium , amplitude , observable , polarization (electrochemistry) , faddeev equations , scattering , reaction mechanism , nuclear reaction , elastic scattering , nuclear physics , atomic physics , quantum mechanics , chemistry , catalysis , biochemistry

Polarization correlation coefficients have been measured atRIKEN for the \vec3He(\vec d,p)4He reaction at intermediate energies. We propose a model for the(\vec d, p) reaction mechanism using the pd elastic scattering amplitude whichis rigorously determined by a Faddeev calculation and using modern NN forces.Our theoretical predictions for deuteron polarization observables A_y, A_{yy},A_{xx} and A_{xz} at E_d=140, 200 and 270 MeV agree qualitatively in shape withthe experimental data for the reaction 3He(\vec d,p)4He.

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