K. Nowakowski scite author profile

A new method to determine the spin tune is described and tested. In an ideal planar magnetic ring, the spin tune-defined as the number of spin precessions per turn-is given by ν s ¼ γG (γ is the Lorentz factor, G the gyromagnetic anomaly). At 970 MeV=c, the deuteron spins coherently precess at a frequency of ≈120 kHz in the Cooler Synchrotron COSY. The spin tune is deduced from the up-down asymmetry of deuteron-carbon scattering. In a time interval of 2.6 s, the spin tune was determined with a precision of the PRL 115, 094801 (2015) P H Y S I C A L

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Probing dense baryon-rich matter with virtual photons

Adamczewski-Musch¹,

Arnold²,

Behnke³

et al. 2019

Nat. Phys.

134

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How to Reach a Thousand-Second in-Plane Polarization Lifetime with0.97−GeV/cDeuterons in a Storage Ring

Guidoboni¹,

Stephenson²,

Andrianov³

et al. 2016

Phys. Rev. Lett.

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Centrality determination of Au + Au collisions at 1.23A GeV with HADES

et al. 2018

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The centrality determination for Au + Au collisions at 1.23A GeV, as measured with HADES at the GSI-SIS18, is described. In order to extract collision geometry related quantities, such as the average impact parameter or number of participating nucleons, a Glauber Monte Carlo approach is employed. For the application of this model to collisions at this relatively low centre-of-mass energy of √ s NN = 2.42 GeV special investigations were performed. As a result a well defined procedure to determine centrality classes for ongoing analyses of heavy-ion data is established.

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K. Nowakowski

New Method for a Continuous Determination of the Spin Tune in Storage Rings and Implications for Precision Experiments

Probing dense baryon-rich matter with virtual photons

How to Reach a Thousand-Second in-Plane Polarization Lifetime with0.97−GeV/cDeuterons in a Storage Ring

Centrality determination of Au + Au collisions at 1.23A GeV with HADES

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