Charge exchange in the deuteron break up at 3.3 GeV/c incident deuteron momentum

Aladashvili, B.S.; Badełek, B.; Glagolev, V. V.; Lebedev, R.M.; Nassalski, J.; Nioradze, M.; Saitov, I.S.; Sandacz, A.; Siemiarczuk, T.; Steṕaniak, J.; Streltsov, V. N.; Zielinski, P.

doi:10.1016/0550-3213(75)90357-0

Cited by 41 publications

(11 citation statements)

References 6 publications

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“…This has been achieved by using a beam of deuterons with momentum 3.35 GeV/c incident on the Dubna hydrogen bubble chamber. Because of the richness of the data contained, the experiment has had a very long history with several reanalyses [49,50,51,52,47]. Of the seventeen different final channels studied, the largest number of events (over 10 5 ) was associated with deuteron breakup.…”

Section: The Unpolarised Dp → Ppn Reactionmentioning

confidence: 99%

Review of quasi-elastic charge-exchange data in the nucleon-deuteron breakup reaction

Lehar

Wilkin²

2010

Phys. Part. Nuclei Lett.

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The available data on the forward charge exchange of nucleons on the deuteron up to 2 GeV per nucleon are reviewed. The value of the inclusive nd → pnn/np → pn cross section ratio is sensitive to the fraction of spinindependent neutron-proton backward scattering. The measurements of the polarisation transfer in d( n, p ){nn} or the deuteron analysing power in p( d, {pp})n in high resolution experiments, where the final nn or pp pair emerge at low excitation energy, depend upon the longitudinal and transverse spin-spin np amplitudes. The relation between these types of experiments is discussed and the results compared with predictions of the impulse approximation model in order to see what new constraints they can bring to the neutron-proton database.

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Section: The Unpolarised Dp → Ppn Reactionmentioning

confidence: 99%

Review of quasi-elastic charge-exchange data in the nucleon-deuteron breakup reaction

Lehar

Wilkin²

2010

Phys. Part. Nuclei Lett.

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“…0.650 ± 0.120 2002 [30] to measure both final fast protons over a large range of phase space. This can be done using a bubble chamber and the value [30] quoted in Table 3 represents the result of increased statistics and a different analysis compared to that of the previous publication [29]. A particular criticism here is that the free neutron-proton data have to be taken from an entirely different source so that there can be no cancellations between any systematic errors.…”

Section: Experimental Data and Theoretical Comparisonmentioning

confidence: 98%

Nucleon charge exchange on the deuteron: A critical review

Lehar

Wilkin

2008

Eur. Phys. J. A

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The existing experimental data on the d(n, p)nn and d(p, n)pp cross sections in the forward direction are reviewed in terms of the Dean sum rule. It is shown that the measurement of the ratio of the charge exchange on the deuteron to that on the proton might, if taken together with other experimental data, allow a direct construction of the np → np scattering amplitude in the backward direction with few ambiguities. PACS. 13.75.Cs Nucleon nucleon interactions -25.40.Kv Charge-exchange reactions -25.10.+s Nuclear reactions involving few-nucleon systems 1 See Ref. [8] for a very comprehensive discussion of different amplitude bases.

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“…In Fig. 13 the results of theoretical calculations with the relativistic wave function (5.1) and with the nonrelativistic Hulten wave function (5.2) are compared with the experimental distribution of spectator neutrons in the process of direct break-up of the deuteron D + p → p + p + n sp in the deuteron bubble chamber bombarded by deuterons with 3,3 GeV/c momentum and converted to the antilaboratory frame in which the momentum of the incident protons is equal to 1,66 GeV/c [153]- [155].…”

Section: )mentioning

confidence: 99%

Light front formalism for composite systems and some of its applications in particle and relativistic nuclear physics

et al. 2008

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Light front formalism for composite systems is presented. Derivation of equations for bound state and scattering problems are given. Methods of constructing of elastic form factors and scattering amplitudes of composite particles are reviewed. Elastic form factors in the impulse approximation are calculated. Scattering amplitudes for relativistic bound states are constructed. Some model cases for transition amplitudes are considered. Deep inelastic form factors (structure functions) are expressed through light front wave functions. It is shown that taking into account of transverse motion of partons leads to the violation of Bjorken scaling and structure functions become square of transverse momentum dependent. Possible explanation of the EMC-effect is given. Problem of light front relativization of wave functions of lightest nuclei is considered. Scaling properties of deuteron, 3 He and 4 He light front wave functions are checked in a rather wide energy range.

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Charge exchange in the deuteron break up at 3.3 GeV/c incident deuteron momentum

Cited by 41 publications

References 6 publications

Review of quasi-elastic charge-exchange data in the nucleon-deuteron breakup reaction

Review of quasi-elastic charge-exchange data in the nucleon-deuteron breakup reaction

Nucleon charge exchange on the deuteron: A critical review

Light front formalism for composite systems and some of its applications in particle and relativistic nuclear physics

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