Interactions of High Energy Particles with NucleiNational Bureau of Standards, 1975 - 69 pages |
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Page 19
... absorption , which is given by dominating process , but not έ ( b ) ) . If the Coulomb interaction is absent ( x . = 0 ) the elastic cross section is invariant against the change of sign of . If , however , x.0 some drastic changes may ...
... absorption , which is given by dominating process , but not έ ( b ) ) . If the Coulomb interaction is absent ( x . = 0 ) the elastic cross section is invariant against the change of sign of . If , however , x.0 some drastic changes may ...
Page 28
... absorption of polarized light by an anisotropic absorber . The incident wave is polarized in the direction n ( perpendicular to the z direction ) . n = ( nz , ny ) ¥ 2 = n2 ¥ z + ny where is the wave polarized in the x direction and V ...
... absorption of polarized light by an anisotropic absorber . The incident wave is polarized in the direction n ( perpendicular to the z direction ) . n = ( nz , ny ) ¥ 2 = n2 ¥ z + ny where is the wave polarized in the x direction and V ...
Page 29
... ABSORBING TARGET Z = 0 29 y = = 2 < 0 z > 0 . The " undisturbed " wave is Y , everywhere , hence the scattered wave is 0 , Y2 - Y = - z < 0 Yn - 4 , z > 0 . Actually it is more important for our purposes to introduce partial absorption ...
... ABSORBING TARGET Z = 0 29 y = = 2 < 0 z > 0 . The " undisturbed " wave is Y , everywhere , hence the scattered wave is 0 , Y2 - Y = - z < 0 Yn - 4 , z > 0 . Actually it is more important for our purposes to introduce partial absorption ...
Page 30
... absorption in the target we assume known : | { ; ) = Σdij | λ ; ) | Xi ) = Σcij | X ; ) 2 | Xi ) , | X ; ) form orthonormal sets ( 4.1 ) of states . | λ ; ) = Σ Σ c ;; d ; 1 | Mı ) = | λi ) , hence Σcij djr = dil . j So , The states ...
... absorption in the target we assume known : | { ; ) = Σdij | λ ; ) | Xi ) = Σcij | X ; ) 2 | Xi ) , | X ; ) form orthonormal sets ( 4.1 ) of states . | λ ; ) = Σ Σ c ;; d ; 1 | Mı ) = | λi ) , hence Σcij djr = dil . j So , The states ...
Page 31
... absorption of the incident particle . One still faces the problem of specifying the absorption parameters 7 ; and the coefficients e¿j . The coefficient 7 ; of the incident particle is , as a rule , easy because this is a well - known ...
... absorption of the incident particle . One still faces the problem of specifying the absorption parameters 7 ; and the coefficients e¿j . The coefficient 7 ; of the incident particle is , as a rule , easy because this is a well - known ...
Common terms and phrases
absorption additivity analysis approximately assume attenuation beam coherent collision complete components compute consider contribution corrections Coulomb Coulomb interactions coupling cross section db exp db exp i▲·b depend describe deuteron diffractive production processes discussed effects elastic scattering elastic scattering amplitude equation example excited existence experimental experiments expression fact factor field final formula forward given gives Glauber ground hadrons Hence high energy limit important incident particle inelastic initial Institute interactions introduce magnetic mass measurement momentum transfer multiple scattering Note nuclear nuclear targets nuclei nucleon numbers objects obtained parameters phase shifts photon photoproduction physical position possible problem profiles regeneration shadowing single Standards step strong structure technical vector meson wave function weak