Universality of spectator fragmentation at relativistic bombarding energies

Schüttauf, A.; Kunze, Wolfgang; Wörner, Antje; Begemann-Blaich, M.; Blaich, Th.; Bowman, D. R.; Charity, R. J.; Cosmo, A.; Ferrero, A.; Gelbke, C. K.; Gross, C. J.; Hsi, W. C.; Hubele, J.; Immé, G.; Iori, I.; Kempter, J.; Kreutz, P.; Kunde, G. J.; Lindenstruth, V.; Lisa, M. A.; Lynch, W. G.; Lynen, U.; Mang, M.; Möhlenkamp, T.; Moroni, A.; Müller, W. F. J.; Neumann, Marcus A.; Ocker, B.; Ogilvie, C. A.; Peaslee, Graham F.; Pochodzalla, J.; Raciti, G.; Rosenberger, Franz; Rubehn, Th.; Sann, H.; Schwarz, C.; Seidel, W.; Serfling, V.; Sobotka, L. G.; Stroth, J.; Stuttgé, L.; Tomaśevič, S.; Trautmann, W.; Trzciński, A.; Tsang, M. B.; Tucholski, A.; Verde, G.; Williams, C.; Zude, E.; Zwiȩgliński, B.

doi:10.1016/0375-9474(96)00239-4

Cited by 227 publications

(218 citation statements)

References 70 publications

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“…), Darmstadt [13]. Beams of gold ions (Au, Z = 79) at 600 and 1000 MeV/nucleon incident energies were used to bombard targets made of thin copper foils.…”

Section: Analysis Of Fragmentation Data 21 the Experimentsmentioning

confidence: 99%

Analyzing fragmentation of simple fluids with percolation theory

et al. 2000

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“…), Darmstadt [13]. Beams of gold ions (Au, Z = 79) at 600 and 1000 MeV/nucleon incident energies were used to bombard targets made of thin copper foils.…”

Section: Analysis Of Fragmentation Data 21 the Experimentsmentioning

confidence: 99%

Analyzing fragmentation of simple fluids with percolation theory

et al. 2000

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“…It is important to note that there are problems with determining both the excitation energy [2,5,7,19] and the temperature [12][13][14][15][20][21][22][23][24][25][26] of multifragmenting systems. After correction for collective expansion, for example, calculated excitation energies for peripheral collisions at high energies must be further reduced by roughly 30% to reproduce experimental data and larger corrections are estimated for energetic central collisions [2,7,19,27]. Collective motion, pre-equilibrium emission and Coulomb barrier fluctuations increase significantly the temperatures deduced from kinetic energy spectra [1][2][3]12,19] while secondary decay modifies the temperatures deduced from excited state populations and isotope ratios [21,22].…”

mentioning

confidence: 99%

Generalized isoscaling of isotopic distributions

Tsang¹,

Shomin²,

Bjarki³

et al. 2002

Phys. Rev. C

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“…The distance to the target was 60 cm. The products of the projectile decay were measured with the time-of-flight wall of the ALADIN spectrometer [6] and the quantity Z BOU N D was determined event-by-event. Z BOU N D is defined as the sum of the atomic numbers Z i of all fragments with Z i ≥ 2.…”

Section: Methodsmentioning

confidence: 99%

Time scales in spectator fragmentation

Schwarz¹,

Fritz²,

Bassini³

et al. 2001

Nuclear Physics A

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Proton-proton correlations and correlations of p-α, d-α, and t-α from spectator decays following 197 Au+ 197 Au collisions at 1000 AMeV have been measured with an highly efficient detector hodoscope. The constructed correlation functions indicate a moderate expansion and low breakup densities similar to assumptions made in statistical multifragmentation models. In agreement with a volume breakup rather short time scales were deduced employing directional cuts in proton-proton correlations.

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Universality of spectator fragmentation at relativistic bombarding energies

Cited by 227 publications

References 70 publications

Analyzing fragmentation of simple fluids with percolation theory

Analyzing fragmentation of simple fluids with percolation theory

Generalized isoscaling of isotopic distributions

Time scales in spectator fragmentation

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