Interactions of High Energy Particles with NucleiNational Bureau of Standards, 1975 - 69 pages |
From inside the book
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Page 4
... phase shifts . There are many simplifications made in obtaining the fundamental formula ( 2.1 ) ; the reliability of this formula is of primary importance . The most complete analysis one can perform is presumably to employ the Watson ...
... phase shifts . There are many simplifications made in obtaining the fundamental formula ( 2.1 ) ; the reliability of this formula is of primary importance . The most complete analysis one can perform is presumably to employ the Watson ...
Page 6
... phase shifts - hence the Glauber model : But when K # 0 the principle of additivity of phase shifts breaks down . Let us consider this case in more detail . a From the equation - i Əz :) ] + eV - Kẞ ( Σ1 · В1 - iα · E ) = 0 we can ...
... phase shifts - hence the Glauber model : But when K # 0 the principle of additivity of phase shifts breaks down . Let us consider this case in more detail . a From the equation - i Əz :) ] + eV - Kẞ ( Σ1 · В1 - iα · E ) = 0 we can ...
Page 7
... phase shifts ( or , equivalently , multiplying profiles ) . We can also see that the physical reason for this phenomenon is the coupling between different spin states produced by the term K ( 81.B1 - id1 E102 ) . So , we have to deal ...
... phase shifts ( or , equivalently , multiplying profiles ) . We can also see that the physical reason for this phenomenon is the coupling between different spin states produced by the term K ( 81.B1 - id1 E102 ) . So , we have to deal ...
Page 8
... phase shifts . In general the additivity does not occur . Take , e.g. , pure Coulomb scattering ( B = 0 , V = Coulomb potential ) in eq ( 2.5 ) : ax -i- dz = ax . We have to diagonalize the matrix of eq ( 2.5 ) ( compare ref . [ 8 ] ...
... phase shifts . In general the additivity does not occur . Take , e.g. , pure Coulomb scattering ( B = 0 , V = Coulomb potential ) in eq ( 2.5 ) : ax -i- dz = ax . We have to diagonalize the matrix of eq ( 2.5 ) ( compare ref . [ 8 ] ...
Page 9
... phase shifts " is also violated . Let us consider a vector particle ( hence a very relevant kind of particle to our ... phase shifts only in the case = 1 . 2. In all the other cases ( including = 0 ) , there is no additivity of phase ...
... phase shifts " is also violated . Let us consider a vector particle ( hence a very relevant kind of particle to our ... phase shifts only in the case = 1 . 2. In all the other cases ( including = 0 ) , there is no additivity of phase ...
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