J. O. Rasmussen scite author profile

Central collisions of heavy nuclei at cm. kinetic energies of a few hundred MeV per nucleon produce fireballs of hot, dense nuclear matter. Each fireball explodes, producing a blast wave of nucleons and pions. Several features of the observed cross sections for pions and protons from Ne on Na F at 0.8 GeV/nucleon (lab) are explained by the blast wave, but contradict earlier, purely thermal models. The available energy is equally divided between translational energy of the blast, and thermal motion of the paritlces in the exploding matter.

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Spin-Dependent WIMP Limits from a Bubble Chamber

Behnke

Collar

Cooper

et al. 2008

Science

161

208

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Bubble chambers were the dominant technology used for particle detection in accelerator experiments for several decades, eventually falling into disuse with the advent of other techniques. We report here on a new application for these devices. We operated an ultraclean, room-temperature bubble chamber containing 1.5 kilograms of superheated CF3I, a target maximally sensitive to spin-dependent and -independent weakly interacting massive particle (WIMP) couplings. An extreme intrinsic insensitivity to the backgrounds that commonly limit direct searches for dark matter was measured in this device under operating conditions leading to the detection of low-energy nuclear recoils like those expected from WIMPs. Improved limits on the spin-dependent WIMP-proton scattering cross section were extracted during our experiments, excluding this type of coupling as a possible explanation for a recent claim of particle dark-matter detection.

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Alpha-Decay Barrier Penetrabilities with an Exponential Nuclear Potential: Even-Even Nuclei

1959

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J. O. Rasmussen

Evidence for a Blast Wave from Compressed Nuclear Matter

Spin-Dependent WIMP Limits from a Bubble Chamber

Alpha-Decay Barrier Penetrabilities with an Exponential Nuclear Potential: Even-Even Nuclei

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