Ch. Jacquemart scite author profile

Parity nonconservation in p-p scattering has been studied by comparing the cross sections d + , and a" for longitudinally polarized 45-MeV protons of positive and negative helicity. The longitudinal analyzing power is found to be A z = (-3.2 ± 1.1) x 10"" 7 . The quoted uncertainty includes the statistical error, the uncertainties of corrections applied, and estimates of systematic effects.It has been suggested 1 that a possible parity nonconservation in the nucleon-nucleon interaction can be studied by comparing the p-p cross sections a + and o~ for an incident beam of longitudinally polarized protons of positive and negative helicity. Since the scattering cross section is proportional to the ratio of the number of scattered protons, N s , to the number of incident protons, N p , the longitudinal analyzing power A z can be written as

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Effects of transverse polarization components in parity tests with longitudinally polarized nucleons

Simonius

Henneck

Jacquemart

et al. 1980

Nuclear Instruments and Methods

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Study of Parity Nonconservation inpαScattering

Henneck¹,

Jacquemart²,

Lang³

et al. 1982

Phys. Rev. Lett.

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Parity nonconservation in^a scattering has been studied by comparing the cross sections a + and a" for longitudinally polarized 46-MeV protons of positive and negative helicity. The longitudinal analyzing power is found to be A M = (0.3 ± 1.3) x 10" 7 . This result, together with earlier measurements on parity nonconservation in££ scattering, gives new limits for the weak pion-nucleon coupling constant.PACS numbers: ll.30. Er, 25.40.Cm, 13.75.Gx, 24.70,+s According to present theory, the interaction between nucleons (jsfN interaction) contains a small contribution from weak interactions (hadronic weak currents) which can be described by weakcoupling constants associated with the exchange of various mesons (rr, p, a>, etc.). Experimentally, the weak NN potential can be detected because it leads to a small parity nonconservation in nuclear interactions. The presence of such effects has been clearly demonstrated, e.g., through the detection of circular polarization P y in the y decay of various nuclei, but there is insufficient information at present to determine the individual weak meson-nucleon coupling constants (see Haeberli 1 and Desplanques 2 for reviews).The work reported here is the first measurement of parity nonconservation in pa scattering. The experiment consists of comparison of cross sections a + and a" for logitudinally polarized proton beams of positive and negative helicity. Recent calculations 3 * 4 of the longitudinal analyzing power A z = (a + -a" )/(a + +a") predict values of the order of a few times 10" 7 and suggest that the contribution from the weak pion-nucleon coupling constant,/fr, should dominate A z . The value of f v is of particular interest because this coupling constant is strongly affected by the weak neutral currents in the theory of Weinberg and Salam. Study of the pot system is attractive because it is the simplest one available (apart from the pp and and np systems) and because its scattering states are relatively well known.The experimental technique was essentially the same as in our earlier investigation on pp scattering. 5 * 6 The arrangement is shown schematically in Fig. 1. Protons are scattered in a 100-bar He target whose walls are sufficiently thick (2-mm Al alloy) that charged particles from breakup reactions are stopped. Protons scattered by 23°-97° are detected in a hydrogen-filled (1-bar) cyclindrical ionization chamber which surrounds the target. The proton beam was provided by the Swiss Institute for Nuclear Research cyclotron which is equipped with an atomic-beam-type polarized-ion source. The arrangement in Fig. 1 is preceded by a spin-precession solenoid and a 47.6° deflection magnet, which, together, precess the vertical polarization of the beam from the cyclotron (± P y ) into a beam of longitudinal polarization ± P z or =F P Z , depending on the sign of the solenoid field. The helicity of the beam is reversed every 30 msec by switching rf transitions in the ion source. Every few hours the overall phase of P z is reversed by reversal of

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A quantitative monitor for beam intensity and polarization profiles

Haeberli¹,

Henneck²,

Jacquemart³

et al. 1979

Nuclear Instruments and Methods

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Ch. Jacquemart

Parity violation in proton-proton scattering at 45 MeV

Measurement of Parity Nonconservation inppScattering at 45 MeV

Effects of transverse polarization components in parity tests with longitudinally polarized nucleons

Study of Parity Nonconservation inpαScattering

A quantitative monitor for beam intensity and polarization profiles

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