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Im Weltall existieren hunderte sehr helle Objekte, die eine hohe konstante Leuchtkraft im Wellenlängenbereich von Gammastrahlung besitzen. Die konstante Leuchtkraft mancher dieser Objekte wird in regelmäßigen Abständen von starken Ausbrüchen, den sogenannten X-Ray-Bursts, unterbrochen. Hauptenergiequelle dieser X-RayBursts ist der „rapid-proton-capture“-Prozess (rp-Prozess). Dieser zeichnet sich durch eine Abfolge von (p,γ)-Reaktionen und β+-Zerfällen aus, die die charakteristischen Lichtkurven produzieren. Für viele am Prozess beteiligte Reaktionen ist der Q-Wert sehr klein, wodurch die Rate der einzelnen Reaktionen von den resonanten Einfängen in die ungebundenen Zustände dominiert wird. Die Unsicherheiten in der Beschreibung der Lichtkurve sind derzeit aufgrund fehlender kernphysikalischer Informationen von vielen am Prozess beteiligten Isotopen sehr groß. Sensitivitätsstudien zeigen, dass dabei die Unsicherheiten der 23Al(p,γ)24Si-Reaktion eine der größten Auswirkungen auf die Lichtkurve hat. Diese werden durch ungenaue und widersprüchliche Informationen zu den ungebundenen Zuständen im kurzlebigen 24Si hervorgerufen.
Um Informationen über die Kernstruktur von 24Si zu erhalten, wurde am National Superconducting Cyclotron Laboratory (NSCL), Michigan, USA, die 23Al(d,n)24Si Transferreaktion untersucht. Der in dieser Form erstmals umgesetzte Versuchsaufbau bestand aus einem Gammadetektor zur Messung der Übergangsenergien des produzierten 24Si, einem Neutronendetektor zur Messung der Winkelverteilung der emittierten Neutronen und einem Massensprektrometer zur Identifikation des produzierten Isotops. Mit diesem Aufbau, der eine Detektion der kompletten Kinematik der (d,nγ)-Reaktion ermöglichte, konnten folgende Erkentnisse gewonnen werden:
Aus der Energie der nachgewiesenen Gammas konnten die Übergänge zwischen den Kernniveaus von 24Si bestimmt und daraus die Energien der einzelnen Zustände ermittelt werden. Dabei konnte neben dem bereits bekannten gebundenen 2+-Zustand (in dieser Arbeit gemessen bei 1874 ± 2,9keV) und dem ungebundenen 2+-Zustand (3448,8 ± 4,6keV), erstmals ein weiterer ungebundener (4+,0+)-Zustand bei 3470,6 ± 6,2 keV beobachtet werden. Zusätzlich konnte die Diskrepanz, die bezüglich der Energie des ungebundenen 2+-Zustands aufgrund früherer Messungen bestand, beseitigt und die Energieunsicherheit reduziert werden.
Aus der Anzahl der nachgewiesenen Gammas konnten ebenfalls die (d,n)-Wirkungsquerschnitte in die einzelnen Zustände von 24Si bestimmt werden. Unter Verwendung der Ergebnisse von DWBA-Rechnungen konnte mithilfe dieser die spektroskopischen Faktoren berechnet werden. Für die angeregten Zustände musste dabei zwischen verschiedenen Drehimpulsüberträgen unterschieden werden. Mittels der Winkelverteilung der nachgewiesenen Neutronen konnte gezeigt werden, dass die Gewichtung anhand der theoretischen spektroskopischen Faktoren zur Berechnung der Anteile des jeweiligen Drehimpulsübertrags am gesamten Wirkungsquerschnitt für den entsprechenden Zustand gute Ergebnisse liefert. Für eine quantitative Bestimmung der spektroskopischen Faktoren der Zustände anhand der Neutronenwinkelverteilungen in 24Si war allerdings die Statistik zu gering. Für den Fall der deutlich häufiger beobachteten 22Mg(d,n)23Al-Reaktion konnte hingegen ein spektroskopischer Faktor für den 23Al-Grundzustand von 0,29 ± 0,04 bestimmt werden. Abschließend wurden die Auswirkungen der gewonnenen Erkenntnisse zur Kernstruktur von 24Si auf die Rate der 23Al(p,γ)-Reaktion untersucht. Dabei konnte aufgrund der besseren Energiebestimmung zum einen die Diskrepanz zwischen den Raten die auf Grundlage der beiden früheren Untersuchungen berechnet wurden und bis zu einem Faktor von 20 voneinander abweichen, beseitigt werden. Zum anderen konnte aufgrund der kleineren Unsicherheit in der Energiebestimmung der Fehlerbereich der Rate verkleinert werden. Die Untersuchungen zeigen, dass die Unsicherheit in der neuen Rate von der Ungenauigkeit der Massenbestimmung der beiden beteiligten Isotope und damit dem Q-Wert der Reaktion dominiert wird. Durch eine bessere Bestimmung des Q-Werts könnte die Unsicherheit in der Rate aufgrund der neuen experimentellen Ergebnisse auf ein Zehntel gesenkt werden.
Elliptic flow from nuclear collisions is a hadronic observable sensitive to the early stages of system evolution. We report first results on elliptic flow of charged particles at midrapidity in Au+Au collisions at sqrt(s_NN)=130 GeV using the STAR TPC at RHIC. The elliptic flow signal, v_2, averaged over transverse momentum, reaches values of about 6% for relatively peripheral collisions and decreases for the more central collisions. This can be interpreted as the observation of a higher degree of thermalization than at lower collision energies. Pseudorapidity and transverse momentum dependence of elliptic flow are also presented.
Background: Peritoneal metastasis is a common and dismal evolution of several gastrointestinal (GI) tumors, including gastric, colorectal, hepatobiliary, pancreatic, and other cancers. The therapy of peritoneal metastasis is largely palliative; with the aim of prolonging life and preserving its quality. In the meantime, a significant pharmacological advantage of intraperitoneal chemotherapy was documented in the preclinical model, and numerous clinical studies have delivered promising clinical results.
Methods: This is a prospective, open, randomized multicenter phase III clinical study with two arms that aims to evaluate the effects of pressurized intraperitoneal aerosol chemotherapy (PIPAC) combined with systemic chemotherapy vs. intravenous systemic chemotherapy alone on patients with metastatic upper GI tumors with a peritoneal seeding. Upper GI-adenocarcinomas originated from biliary tract, pancreas and stomach, or esophago- gastric junction are eligible. Patients in the study are treated with standard of care systemic palliative chemotherapy (mFOLFOX6) vs. PIPAC with intravenous (i.v.) chemotherapy (mFOLFOX6). Patients in first line with first diagnosed peritoneal seeding are eligible. Primary outcome is progression free survival (PFS).
Conclusions: PIPAC-procedure is explicit a palliative method but it delivers cytotoxic therapy like in hyperthermic intraperitoneal chemotherapy (HIPEC)-procedure directly to the tumor in a minimally invasive technique, without the need for consideration of the peritoneal-plasma barrier. The technique of PIPAC is minimally invasive and very gentle and the complete procedure takes only round about 45 min and, therefore, optimal in a clearly palliative situation where cure is not the goal. It is also ideal for using this approach in a first line situation, where deepest response should be achieved. The symbiosis of systemic therapy and potentially effective surgery has to be well-planned without deterioration of the patient due to aggressive way of surgery like in cytoreductive surgery (CRS)+HIPEC.
Trial registration: EudraCT: 2018-001035-40.
Neutron capture and β− -decay are competing branches of the s-process nucleosynthesis path at 85Kr [1], which makes it an important branching point. The knowledge of its neutron capture cross section is therefore essential to constrain stellar models of nucleosynthesis. Despite its importance for different fields, no direct measurement of the cross section of 85Kr in the keV-regime has been performed. The currently reported uncertainties are still in the order of 50% [2, 3]. Neutron capture cross section measurements on a 4% enriched 85Kr gas enclosed in a stainless steel cylinder were performed at Los Alamos National Laboratory (LANL) using the Detector for Advanced Neutron Capture Experiments (DANCE). 85Kr is radioactive isotope with a half life of 10.8 years. As this was a low-enrichment sample, the main contaminants, the stable krypton isotopes 83Kr and 86Kr, were also investigated. The material was highly enriched and contained in pressurized stainless steel spheres.
The 23Al(p, γ)24Si stellar reaction rate has a significant impact on the light-curve emitted in X-ray bursts. Theoretical calculations show that the reaction rate is mainly determined by the properties of direct capture as well as low-lying 2+ states and a possible 4+ state in 24Si. Currently, there is little experimental information on the properties of these states.
In this proceeding we will present a new experimental study to investigate this reaction, using the surrogate reaction 23Al(d,n) at 47 AMeV at the National Superconducting Cyclotron Laboratory (NSCL). We will discuss our new experimental setup which allows us to use full kinematics employing the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) to detect the γ-rays following the de-excitation of excited states of the reaction products and the Low Energy Neutron Detector Array (LENDA) to detect the recoiling neutrons. The S800 was used for identification of the 24Si recoils. As a proof of principle to show the feasibility of this concept the Q-value spectrum of 22Mg(d,n)23Al is reconstructed.
We report the first measurement of low-energy proton-capture cross sections of 124Xe in a heavy-ion storage ring. 124Xe54+ ions of five different beam energies between 5.5 and 8 AMeV were stored to collide with a windowless hydrogen target. The 125Cs reaction products were directly detected. The interaction energies are located on the high energy tail of the Gamow window for hot, explosive scenarios such as supernovae and x-ray binaries. The results serve as an important test of predicted astrophysical reaction rates in this mass range. Good agreement in the prediction of the astrophysically important proton width at low energy is found, with only a 30% difference between measurement and theory. Larger deviations are found above the neutron emission threshold, where also neutron and γ widths significantly impact the cross sections. The newly established experimental method is a very powerful tool to investigate nuclear reactions on rare ion beams at low center-of-mass energies.
The 124Xe(p,γ) reaction has been measured for the first time at energies around the Gamow window by using stored ions at the ESR facility. The desired beam energies below 10 MeV/u introduce new experimental challenges like windowless ions detection under UHV conditions, extremely short beam lifetimes and efficient beam deceleration and cooling, all of which have been successfully met.
The electron-capture process was studied for Xe54+ colliding with H2 molecules at the internal gas target of the Experimental Storage Ring (ESR) at GSI, Darmstadt. Cross-section values for electron capture into excited projectile states were deduced from the observed emission cross section of Lyman radiation, being emitted by the hydrogenlike ions subsequent to the capture of a target electron. The ion beam energy range was varied between 5.5 and 30.9 MeV/u by applying the deceleration mode of the ESR. Thus, electron-capture data were recorded at the intermediate and, in particular, the low-collision-energy regime, well below the beam energy necessary to produce bare xenon ions. The obtained data are found to be in reasonable qualitative agreement with theoretical approaches, while a commonly applied empirical formula significantly overestimates the experimental findings.
Children’s and adolescents’ lives drastically changed during COVID lockdowns worldwide. To compare accident- and injury-related admissions to pediatric intensive care units (PICU) during the first German COVID lockdown with previous years, we conducted a retrospective multicenter study among 37 PICUs (21.5% of German PICU capacities). A total of 1444 admissions after accidents or injuries during the first lockdown period and matched periods of 2017–2019 were reported and standardized morbidity ratios (SMR) were calculated. Total PICU admissions due to accidents/injuries declined from an average of 366 to 346 (SMR 0.95 (CI 0.85–1.05)). Admissions with trauma increased from 196 to 212 (1.07 (0.93–1.23). Traffic accidents and school/kindergarten accidents decreased (0.77 (0.57–1.02 and 0.26 (0.05–0.75)), whereas household and leisure accidents increased (1.33 (1.06–1.66) and 1.34 (1.06–1.67)). Less neurosurgeries and more visceral surgeries were performed (0.69 (0.38–1.16) and 2.09 (1.19–3.39)). Non-accidental non-suicidal injuries declined (0.73 (0.42–1.17)). Suicide attempts increased in adolescent boys (1.38 (0.51–3.02)), but decreased in adolescent girls (0.56 (0.32–0.79)). In summary, changed trauma mechanisms entailed different surgeries compared to previous years. We found no evidence for an increase in child abuse cases requiring intensive care. The increase in suicide attempts among boys demands investigation.