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S. Baird

Bio: S. Baird is an academic researcher from CERN. The author has contributed to research in topics: Antiproton & Electron cooling. The author has an hindex of 2, co-authored 2 publications receiving 20 citations.

Papers
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Journal ArticleDOI
TL;DR: The first electron cooling experiments were performed with 10 7 to 2×10 9 stored antiprotons of 50, 21 and 6 MeV at the Low Energy Antiproton Ring (LEAR) at CERN as discussed by the authors.
Abstract: First electron cooling experiments were performed with 10 7 to 2×10 9 stored antiprotons of 50, 21 and 6 MeV at the Low Energy Antiproton Ring (LEAR) at CERN. Most effort was put into the study of the longitudinal cooling. Schottky pick-up signals were used to measure the equilibrium momentum spread and the longitudinal cooling time. From the equilibrium between stochastic heating and electron cooling the longitudinal friction force in the low 10 3 m/s relative velocity range could be deduced. This method was used also to increase the cooling force by improving the alignment between the antiproton and the electron beam. Some of the experimental data are compared with results of a simulation program for electron cooling (SPEC).

11 citations

Journal ArticleDOI
TL;DR: In this paper, the first results are presented of electron cooling experiments in the Low-Energy Antiproton Ring (LEAR) at CERN, performed with a proton beam of about 50 and 21 MeV.
Abstract: The first results are presented of electron cooling experiments in the Low-Energy Antiproton Ring (LEAR) at CERN, performed with a proton beam of about 50 and 21 MeV. The number of stored protons ranged from 107 to 3 × 109. Cooling times of the order 1 s and proton drag rates of up to 0.7 MeV/s were obtained. The capture of cooling electrons by protons producing hydrogen atoms was used to derive an effective electron temperature (0.25 eV). From the angular profile of the neutral hydrogen beam an upper limit of 3π mm.mrad could be deduced for the horizontal equilibrium proton-beam emittance. The lowest equilibrium momentum spread was 2 × 105 (FWHM), as derived from the analysis of the longitudinal Schottky signal. This Schottky signal exhibited an unusual behaviour with beam intensity and under certain conditions showed a doublepeak structure which was associated with collective beam noise. For very cold beams transverse instabilities were observed, which resulted in a rapid spill-off of protons and a stabilization at lower intensities. The threshold of these instabilities was raised by heating the proton or the electron beam. The cooling of a bunched proton beam was investigated. The reduction of the proton momentum spread led to bunch lengths of about 2 m, containing 3 × 108 protons.

9 citations


Cited by
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Journal ArticleDOI
TL;DR: A comprehensive overview of electron cooling can be found in this paper, where the authors present a comprehensive coverage of the subject and summarizes the present knowledge. And they discuss possible future developments and refinements of the method, as well as the application of the merged parallel-beam arrangement for atomic physics.

249 citations

Journal ArticleDOI
TL;DR: In this article, a new generation of ion storage-cooler rings dedicated to atomic and molecular physics is proposed. But the storage rings are not suitable for the study of very slow processes occurring in charged (positive and negative) atoms, molecules and clusters.
Abstract: Advances in ion-source, accelerator and beam-cooling technology have made it possible to produce high-quality beams of atomic ions in arbitrary charged states as well as molecular and cluster ions that are internally cold Ion beams of low emittance and narrow momentum spread are obtained in a new generation of ion storage-cooler rings dedicated to atomic and molecular physics The long storage times ( approximately 5

59 citations

Journal ArticleDOI
TL;DR: In this paper, the first time precision spectroscopy on a coasting fast 7Li+ ion beam in a storage ring was performed, where the ion beam moving with 6.4% speed of light was first electron cooled and then merged with two counter-propagating laser beams acting on two different hyperfine transitions sharing a common upper level.
Abstract: We have performed for the first time precision spectroscopy on a coasting fast7Li+ ion beam in a storage ring. The ion beam moving with 6.4% speed of light was first electron cooled and then merged with two counterpropagating laser beams acting on two different hyperfine transitions sharing a common upper level (λ-system). One laser was frequency locked to thea 3 127J2 hfs frequency component established as a secondary frequency standard at 514 nm. The second laser was tuned over theλ-resonance, which was recorded relative to127J2 hfs components. This experiment is sensitive to the time dilation in fast moving frames and will lead to new limits for the verification of special relatively. The present status of the experiment and perspectives in accuracy are discussed.

18 citations

Journal ArticleDOI
TL;DR: In this paper, the authors measured the cooling forces of heavy ions from C6+ to U92+ at various energies from 50 to 360 MeV/u at various velocities from zero to 107 m/s.
Abstract: Longitudinal cooling forces have been measured for heavy ions from C6+ to U92+ at various energies from 50 to 360 MeV/u. Two experimental methods are described which offer the opportunity to measure the cooling force over the whole range of relative ion velocities from zero to 107 m/s. Measurements for various ion species are presented which show a pronounced deviation from the expected q2 scaling in the regime of low relative ion velocities. Further investigations concerning the influence of the magnetic field strength in the cooler revealed no significant influence.

18 citations

Journal ArticleDOI
TL;DR: In this article, the effect of beam expansion on electron cooling with an adiabatically expanded electron beam has been discussed, and the electron temperature can influence the outcome of recombination measurements.
Abstract: Studies of electron cooling with an adiabatically expanded electron beam have been performed at CRYRING. Measurements of the longitudinal drag force using three different methods are described and are compared with measurements at other electron coolers. The processes that determine the electron temperature, longitudinally and transversally, are reviewed, and the effect of the beam expansion on these processes is discussed. It is described how the electron temperature can influence the outcome of recombination measurements, and how such measurements can be used to determine the electron temperature, and an example of such a measurement is given.

16 citations