Add to ORKGAmong various theoretical explanations or interpretations for the experimental data on the differential cross-sections of elastic proton-proton scattering at CERN ISR, the following two seem to be most remarkable: A) the excellent agreement of the Chou-Yang model prediction of d sigma /dt with data at square root s=53 GeV, B) the general manifestation of geometrical scaling (GS). The paper confronts GS with eikonal models with factorizable opaqueness, with special emphasis on the Chou-Yang model. (12 refs)
We argue that geometrical scaling (GS) proposed originally in the context of Deep Inelastic Scatteri...
The model assumes that when two high energy particles collide each behaves as a geometrical object w...
We observe that the saturation model of deep inelastic scattering, which successfully describes incl...
A remarkably good explanation of all pp elastic data at CERN-ISR has been obtained by using a model ...
In this note we discuss emergence of geometrical scaling (firstly proposed for deep inelastic collis...
After introducing the concept of geometrical scaling (GS) on the example of deep inelastic ep scatte...
We analyze geometrical scaling in deep inelastic scattering using experimental data from HERA ep col...
In order to explain a striking symmetry of the HERA data for virtual photon-proton cross section, I ...
Abstract: We use recently proposed method of ratios to assess the quality of geometrical scaling in ...
We observe that the saturation model of deep inelastic scattering, which successfully describes incl...
After introducing the concept of geometrical scaling (GS) on the example of deep inelastic ep scatte...
Abstract. The presence of scaling variables in experimental observables provide very valuable indica...
We compute the tree level cross section for gluon-gluon elastic scattering taking into account a dyn...
GORCZYCA B, Schildknecht D. REMARK ON PRECOCITY OF SCALING IN DEEP INELASTIC ELECTRON PROTON-SCATTER...
Saturation and geometrical scaling (GS) of gluon distributions are a consequence of the non-linear e...
We argue that geometrical scaling (GS) proposed originally in the context of Deep Inelastic Scatteri...
The model assumes that when two high energy particles collide each behaves as a geometrical object w...
We observe that the saturation model of deep inelastic scattering, which successfully describes incl...
A remarkably good explanation of all pp elastic data at CERN-ISR has been obtained by using a model ...
In this note we discuss emergence of geometrical scaling (firstly proposed for deep inelastic collis...
After introducing the concept of geometrical scaling (GS) on the example of deep inelastic ep scatte...
We analyze geometrical scaling in deep inelastic scattering using experimental data from HERA ep col...
In order to explain a striking symmetry of the HERA data for virtual photon-proton cross section, I ...
Abstract: We use recently proposed method of ratios to assess the quality of geometrical scaling in ...
We observe that the saturation model of deep inelastic scattering, which successfully describes incl...
After introducing the concept of geometrical scaling (GS) on the example of deep inelastic ep scatte...
Abstract. The presence of scaling variables in experimental observables provide very valuable indica...
We compute the tree level cross section for gluon-gluon elastic scattering taking into account a dyn...
GORCZYCA B, Schildknecht D. REMARK ON PRECOCITY OF SCALING IN DEEP INELASTIC ELECTRON PROTON-SCATTER...
Saturation and geometrical scaling (GS) of gluon distributions are a consequence of the non-linear e...
We argue that geometrical scaling (GS) proposed originally in the context of Deep Inelastic Scatteri...
The model assumes that when two high energy particles collide each behaves as a geometrical object w...
We observe that the saturation model of deep inelastic scattering, which successfully describes incl...