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Yennello, S. J.; Pollacco, E. C.; Kwiatkowski, K.; Volant, C.; Dayras, R.; Cassagnou, Y.; Légrain, R.; Norbeck, E.; Viola, V.E.; Wile, J.L.; Yoder, N. R.

doi:10.1103/physrevlett.67.671

Cited by 46 publications

(21 citation statements)

References 18 publications

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“…From the comparison to reactions with 12C and 4~ projectiles at E/A = 30 MeV a systematics of inclusive fragment production as a function of the projectile mass is obtained. 25.70.Lm; 25.70.Mn; 25.70.Pq to 3.6 GeV, they seem to be associated with the larger IMF multiplicities [ 11 ]. …”

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confidence: 94%

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Milkau

Begemann-Blaich

Eckert

et al. 1993

Z. Physik A - Hadrons and Nuclei

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Abstract. Inclusive cross sections of intermediate mass fragments from the reaction 84Kr-~-I97Au at ElA = 35 MeV were measured over the range 8 ~ < Olab < 70 ~ with a low detection threshold. A moving-source parameterization was used to fit the double-differential cross sections. The integrated cross section for fragment production exceeds the total reaction cross section thus indicating a large probability for multi-fragment processes. The deduced large temperature parameters can be explained by assuming emission from a rotating source. From the comparison to reactions with 12C and 4~ projectiles at E/A = 30 MeV a systematics of inclusive fragment production as a function of the projectile mass is obtained. 25.70.Lm; 25.70.Mn; 25.70.Pq to 3.6 GeV, they seem to be associated with the larger IMF multiplicities [ 11 ]. PACS:In this work the systematics of the inclusive IMF production is extended to heavier projectiles. We report cross sections for the reaction at E/A = 35 MeV which were measured with a low detection threshold over a large range of angles. The atomic number of the observed fragments extends from Z = 3 up to Z = 36. Fragments up to Z = 24 were included in the moving-source analysis of the measured double-differential cross sections. By comparing to data for the reactions 12C "q-197Au[12] and 4~ + !97Au [6], both at E/A = 30 MeV, the role of the projectile mass in this energy regime is investigated. This measurement also complements the numerous exclusive studies of the 84Kr + 197Au reaction which were conducted in order to discern the dominant mechanisms of fragment production [13][14][15][16][17].

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confidence: 94%

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Milkau

Begemann-Blaich

Eckert

et al. 1993

Z. Physik A - Hadrons and Nuclei

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“…More recently, inclusive studies of the 3He+" t&g system at energies up to 0556 3.6 GeV have suggested a change in mechanism at bombarding energies in the vicinity of 1.8 GeV total energy [27]. Subsequent coincidence studies [8] with sHe beams have demonstrated the existence of multi&agmentation events for this system. In the present work we examine these latter results in the context of a model in which the energy dissipation stage is described by the intranuclear cascade code (INC) [13] and the decay is described by an expanding, emitting source (EES) undergoing statistical decay [1].…”

Section: Introductionmentioning

confidence: 99%

Energy dissipation and multifragment decay in theHe3+
Kwiatkowski
¹
,
Friedman
²
,
Woo
³

et al. 1994
Phys. Rev. C
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Multifragment emission data from the He+Ag reaction are examined in the context of an intranuclear cascade code followed by an expanding, emitting source calculation. The role of 4 resonances in the energy dissipation process is stressed. In addition, the importance of employing a distribution of excitation energies in such analyses is pointed out. In order to describe the data within the context of this hybrid model, excitation via 6 resonance formation and expansion of the emitting source are required. PACS number(s): 25.?O. Pq, 25.40.ve, 25.55.e

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“…Recently the production of intermediate mass fragments from the reaction of 600 MeV/nucleon Au incident on a variety of targets has been investigated [8,9]. Production of IMFs has also been examined in reactions of ^He + Ag from 160 to 1200 MeV/nucleon [10,11]. In all these experiments the cross sections of emitted fragments were observed to have a power-law dependence on the charge of the fragment.…”

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confidence: 98%

Intermediate mass fragment production in central collisions of intermediate energy heavy ions

Bauer

Craig

et al. 1993

Phys. Rev. Lett.

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We present Z distributions for fragments with 1 < Z < 12 from central collisions of '^^Ar+'^^Sc at incident energies ranging from 35 to 115 MeV/nucleon. We find that the Z distributions can be described by a power law or an exponential and steepen with increasing incident energy. Over the range of incident energies studied, the average number of intermediate mass fragments decreases while the average number of particles increases. When combined with previous results for the charge distributions, a minimum is observed in the extracted power-law parameter. PACS numbers: 25.70.PqThe observation and characterization of a liquid-gas phase transition in nuclear matter will provide valuable information concerning the nuclear equation of state (EOS). Nuclear matter exists in a liquidlike state in its ground state. When nuclear matter is heated to excitations high compared to its binding energy it behaves like a classical gas. So far no unambiguous experimental evidence for the liquid-gas phase transition in nuclear matter exists. In this Letter we report charge distributions, a{Z), for "^^Ar-induced reactions on a "^^Sc target at incident energies of 35 to 115 MeV/nucleon where fragments with 1 < Z < 12 were observed with the Michigan State University (MSU) An array. By selecting central collisions in this nearly symmetric system, we reduce the contribution of spectator matter and create a system with known excitation energy and number of participant particles. We find that the charge distributions from central collisions become steeper as the beam energy is increased from 35 to 115 MeV/nucleon corresponding to excitation energies ranging from 8 to 29 MeV/nucleon assuming that preequilibrium particle emission is not important.The critical point of the liquid-gas phase diagram has been predicted to occur in infinite nuclear matter at an excitation energy as low as 15 MeV/nucleon [1] and as high as 330 MeV/nucleon [2]. Scaling theories [3] suggest that the cluster size distribution near the critical point in the phase diagram follows a scaling function n(Af,p) = Af V(Af(p -pc)) .where p is the order parameter with /(O) = 1 at the critical value of the order parameter {p=pc).

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Multifragment emission in reactions induced by 0.90 and 3.6 GeVHe3ions on

Abstract: Multifragment events for intermediate-mass fragments (3

Cited by 46 publications

References 18 publications

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Energy dissipation and multifragment decay in theHe3+
Kwiatkowski
¹
,
Friedman
²
,
Woo
³

et al. 1994
Phys. Rev. C
Self Cite
18
1
4
0
View full text Add to dashboard Cite

Intermediate mass fragment production in central collisions of intermediate energy heavy ions

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Multifragment emission in reactions induced by 0.90 and 3.6 GeVHe3ions on

Abstract: Multifragment events for intermediate-mass fragments (3

Cited by 46 publications

References 18 publications

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Inclusive fragment production in84Kr +197Au atE/A=35 MeV

Energy dissipation and multifragment decay in theHe3+Kwiatkowski1, Friedman2, Woo3 et al. 1994Phys. Rev. CSelf Cite18140View full textAdd to dashboardCite

Intermediate mass fragment production in central collisions of intermediate energy heavy ions

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Product

Resources

About

Energy dissipation and multifragment decay in theHe3+
Kwiatkowski
¹
,
Friedman
²
,
Woo
³

et al. 1994
Phys. Rev. C
Self Cite
18
1
4
0
View full text Add to dashboard Cite