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A careful investigation of different corrections to binding energies of electrons in almost critical fields is performed. We investigate quantitatively the influence of the nuclear charge parameters, nuclear mass, degree of ionization on the value of the critical charge of the nucleus. Rather qualitative arguments are given to establish the contribution of the quantumelectrodynamic corrections, which are found to be small. Some phenomenological modifications of QED are quantitatively investigated and found to be of negligible influence on the value of the critical field. For heavy ion collisions with Z1+Z2>Zcr the critical separations between ions are given as results of precise solutions of the relativistic two coulomb center problem. Corrections due to electron-electron interaction are considered. We find (with present theoretical accuracy) Zcr=173±2, in the heavy ion collisions Rcr(U-U) = 34.7±2 fm and Rcr (U-Cf)=47.7±2 fm. We shortly consider the possibility of spontaneous muon production in muonic supercritical fields.
Recent experimental findings have reported the presence of unconventional charge orders in the enlarged (2 × 2) unit-cell of kagome metals AV3Sb5 (A = K, Rb, Cs) and hinted towards specific topological signatures. Motivated by these discoveries, we investigate the types of topological phases that can be realized in such kagome superlattices. In this context, we employ a recently introduced statistical method capable of constructing topological models for any generic lattice. By analyzing large data sets generated from symmetry-guided distributions of randomized tight-binding parameters, and labeled with the corresponding topological index, we extract physically meaningful information. We illustrate the possible real-space manifestations of charge and bond modulations and associated flux patterns for different topological classes, and discuss their relation to present theoretical predictions and experimental signatures for the AV3Sb5 family. Simultaneously, we predict higher-order topological phases that may be realized by appropriately manipulating the currently known systems.
Es werden Messungen beschrieben, die Übereinstimmung zwischen einer total absorbierenden Ionisationskammer und der Weichstrahl-Standardkammer des Max-Planck-Institutes für Biophysik ergeben. Damit wurde eine weitere Meßanordnung in Betrieb genommen, die besonders für die Absolutmessung der Dosis in „röntgen“ im Gebiet der sehr weichen Röntgenstrahlen geeignet ist.
Neutron stars are unique laboratories for the investigation of the high density properties of bulk matter. In this work, the astrophysical constraints for a phase transition from hadronic matter to deconfined quark matter are examined thoroughly. A scheme for relating known astrophysical observables such as mass, radius and tidal deformability to the parameter space of such a transition is devised and applied to the set of data currently available.
In order to span a wide parameter space, a highly parameterizable relativistic mean field equation in compliance with chiral effective field theory results is used, where the stiffness of the equation of state can be varied via the effective mass at saturation density. The phase transitions are modelled using a Maxwell construction and assumed to be of first order, with a constant speed of sound quark matter model. The resulting equations of state are analyzed and divided into four categories, which can be used to constrain the parameter space that allows phase transition. It is highlighted, that a subset of this parameter space would even be detectable without the need of higher precision measurements. A phase transition at high densities is shown to be particularly promising in this regard. Finally, the groundwork is laid to apply the equation of state used in this work for supernova or merger simulations, by extending it to non-zero temperatures.
Die Wirkungsweise des Protonen-Wendellinearbeschleunigers und sein prinzipieller Aufbau werden kurz beschrieben und Angaben über die erreichbare Parallelimpedanz gemacht. Es wird gezeigt, wie durch sektionsweisen Aufbau eine variable Endenergie erzielt und die Kühl- und Fokussierprobleme gelöst werden können. Zwei Konstruktionsbeispiele für kontinuierlichen und gepulsten Betrieb werden näher ausgeführt.
Light-particle accompanied fission is expected to yield results from which one hopes to learn more about binary scission configurations. As a step in this direction, we present a model that allows the calculation of the probabilities with which a given three-particle setup follows from different binary configurations. First results show the workability of the model.
Über das Absorptionsverhalten verschiedener Quarzglassorten im Spektralbereich von 150 μ bis 275 μ
(1961)
Die Fermi-Verteilung gibt die Verteilung von Elektronen über die verschiedenen Energieniveaus in einem Festkörper unter der Voraussetzung an, daß sich ein thermodynamischer Gleichgewichtszustand eingestellt hat. Bei der Untersuchung von Leitfähigkeitsproblemen werden geringfügige Störungen dieser Gleichgewichtsverteilung durch elektrische Felder, Temperaturgefälle u. dgl. berücksichtigt. Der innere Photoeffekt bewirkt eine kräftige Störung der Gleichgewichtsverteilung, da fortgesetzt lichtelektrisch ausgelöste Elektronen aus einem niederen in einen höheren Energiezustand gehoben werden.
Im folgenden wird ein statistischer Ansatz für die Verteilung von Elektronen über dargebotene Energiestufen versucht für den Fall, daß laufend je Sekunde eine bestimmte Anzahl aus einem tieferen in ein höheres Niveau gehoben wird.
An alternative formulation is presented of the formal theory of multi-channel scattering in nonrelativistic quantum mechanics. We start by defining spaces of state vectors, where two particles either stay together or separate in the limit t →+∞ (or — ∞), when the state vector develops in time by e–i H t (H is the complete Hamiltonian of the n-particle system). A channel is defined as a space of state vectors with the following property: Developing in time by e-i H t they asymptotically describe a state of the n-particle system, where the particles are grouped in fragments. Defining a Hamiltonian Hγ for each channel, in which—compared to H—the interactions acting between particles from different fragments are missing, it is physically plausible that lim eiH e—iHt Ψ exists for vectors Ψ in the channel. Having discussed the limit vectors (asymptotic states), the S-matrix formalism can be introduced as usual. Finally the introduction of the exclusion principle is discussed.