## Interactions of High Energy Particles with NucleiNational Bureau of Standards, 1975 - 69 pages |

### From inside the book

Results 1-5 of 21

Page 3

... მ 22 hence , neglecting second derivatives of , we

... მ 22 hence , neglecting second derivatives of , we

**obtain**the following equation for 4 : 2ikeika = 24 2m dz h2 Veikzy , 24 - dz = 214 Ve where we have used p = kh , v = Р m The amplitude for the particle to scatter from k to 3. Page 4

...

...

**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 multiple scattering theory , but we shall not present ... Page 11

...

...

**obtain**2ka2 = 2X10 GeVX25 GeV - 2 = 100 fm . Note that ( 3.1 ) gives , as r → ∞ , ( compare D. R. Yennie article in [ S3 ] ) ¥ ( r ) = eik2 + [ ƒ ( ke1 ) / r ] exp ( ikr ) , ( e = component of re2 ) , with f ( ke ) correctly given by ... Page 21

...

...

**obtained**by integrating p ( r ) over z . The parameters of x . ( b ) were taken from proton - nucleon scat- tering cross sections . For an ap = -0.33 , σn = 0 , = 38.9 mb ( these parameters are resonable for ~ 20 GeV protons ) , one ... Page 30

...

...

**obtained**the result completely analogous to the one**obtained**for the optical diffractive production : for ij the production amplitude is proportional to the difference in absorptions of the i , j components . This is a very general ...### Common terms and phrases

absorption additivity of phase anomalous magnetic moment Ãº approximately assume attenuation b+½s beam Bureau of Standards coherent diffractive production collision Compton scattering compute Coulomb interactions Czyż d³r db exp i▲·b deuteron diagonalization diffractive production processes diffractive scattering discussed double scattering elastic scattering amplitude electromagnetic equation example excited experiments factor Feynman diagrams formula four-momentum Glauber model hadrons Hence high energy limit incident particle incident wave inelastic shadowing Interactions of High invariant mass K mesons multiple scattering National Bureau neutrino neutrons ññ Note nuclear matter nuclear targets nuclei nucleon obtained optical theorem parameters phase shifts photon photoproduction of vector physical pion production amplitude profiles quantum numbers regeneration Řº shadowing effects single scattering spin strongly interacting target nucleus total cross section vector meson VMD model wave function γν Σ Σ