Interactions of High Energy Particles with Nuclei |
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Page 1
... and diffractive excitation , ( 5 ) Diffractive production of hadrons in hadron - nucleon collisions , ( 6 ) Shadowing effects in inelastic electron - nucleus scattering , ( 7 ) Shadowing effects in neutrino reactions on nuclei .
... and diffractive excitation , ( 5 ) Diffractive production of hadrons in hadron - nucleon collisions , ( 6 ) Shadowing effects in inelastic electron - nucleus scattering , ( 7 ) Shadowing effects in neutrino reactions on nuclei .
Page 2
The expression 1- eix ; ( b ) = Yi ( 6 ) is called the profile of the jth nucleon , incident particle collision . Assuming x ( b ) = Ï xi ( b - 8 ; ) ) and assuming that the particle goes through the target so.
The expression 1- eix ; ( b ) = Yi ( 6 ) is called the profile of the jth nucleon , incident particle collision . Assuming x ( b ) = Ï xi ( b - 8 ; ) ) and assuming that the particle goes through the target so.
Page 11
... z « L ) . z 2 Let us construct the " shape of the shadow ” for a collection of scatterers ( nucleons in a nucleus ; see e.g. , fig . 1 ) : e ik z The incident wave : after the first collision : after the second collision : etc.
... z « L ) . z 2 Let us construct the " shape of the shadow ” for a collection of scatterers ( nucleons in a nucleus ; see e.g. , fig . 1 ) : e ik z The incident wave : after the first collision : after the second collision : etc.
Page 12
The formulae given below are interesting also because they may be used to analyze high energy nucleus - nucleus collisions ( which is not an academic problem because there are experimental projects under way ) .
The formulae given below are interesting also because they may be used to analyze high energy nucleus - nucleus collisions ( which is not an academic problem because there are experimental projects under way ) .
Page 15
If we accept that the densities of hadronic matter are the same as charge densities , F ( a ) , F ( b ) are the F charge form factors of the colliding hadrons . This formula was used successfully to : ( i ) reproduce the proton charge ...
If we accept that the densities of hadronic matter are the same as charge densities , F ( a ) , F ( b ) are the F charge form factors of the colliding hadrons . This formula was used successfully to : ( i ) reproduce the proton charge ...
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