Ch. Wirtz scite author profile

Ch. Wirtz

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Excitation energy division in ⁵¹V+¹⁹⁷Au collisions 75 MeV above the barrier

Wirtz¹,

Kratz²,

Brüchle³

et al. 2001

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Heavy-ion reaction / Radiochemical separation / Cross section / Missing mass / Excitation energy Summary.We have previously determined the excitation energy division in 51 V + 197 Au collisions at a bombarding energy corresponding exactly to the Bass-model barrier, E cm = B, and at E cm = B + 25 MeV. At the barrier, the average excitation energies as a function of Z showed an extreme acceptor-donor asymmetry ("sawtooth" phenomenon) suggesting that the excitation energy division depends on how the neck nucleons are shared at scission. At the 25 MeV higher bombarding energy, a rapid change toward equipartition of the excitation energy was observed. We report here on the determination of the excitation energy division in the same system, using the same experimental technique, at E cm = B + 75 MeV. At this bombarding energy, the average excitation energies indicate that a temperature equilibrium has been reached for most partitions except for the -on the average -incompletely damped events near the entrance channel charges, where some remnant of the "sawtooth" phenomenon is still visible.

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Mikrodialyse als Verfahren zur Beurteilung einer intestinalen Hypoxie - ein tierexperimenteller Ansatz. Microdialysis for the Evaluation of Intestinal Hypoxia - an Animal Experiment.

Bahlmann

Markert²,

Wirtz³

et al. 2003

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Usual ICU monitoring of patients with abdominal pathology provides no detailed information about hepatosplanchnic haemodynamics or intestinal metabolism. In our animal experiment, the effects of systemic hypoxia on microdialysis measurements of the peritoneum in comparison with the ischiocrural muscle as reference were investigated in 7 rats. The parameter of interest was the course of glucose metabolism reflecting sympathoadrenergic activity during the experiment. Measurements were obtained at timed intervals at baseline, under hypoxia, and during reoxygenation. After induction of systemic hypoxia, the peritoneal microdialysis showed significantly higher levels of glucose in comparison with the ischiocrural muscle. The results indicate hypermetabolic activity or a hypersympathetic response of the bowel in response to hypoxic stress. In the clinical setting, the bowel has an important role in the development of multiorgan failure. Microdialysis may therefore be an interesting tool for the early detection of hypoxic metabolism during and after abdominal procedures.

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Ch. Wirtz

Excitation energy division in ⁵¹V+¹⁹⁷Au collisions 75 MeV above the barrier

Mikrodialyse als Verfahren zur Beurteilung einer intestinalen Hypoxie - ein tierexperimenteller Ansatz. Microdialysis for the Evaluation of Intestinal Hypoxia - an Animal Experiment.

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Ch. Wirtz

Excitation energy division in 51V+197Au collisions 75 MeV above the barrier

Mikrodialyse als Verfahren zur Beurteilung einer intestinalen Hypoxie - ein tierexperimenteller Ansatz. Microdialysis for the Evaluation of Intestinal Hypoxia - an Animal Experiment.

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Excitation energy division in ⁵¹V+¹⁹⁷Au collisions 75 MeV above the barrier