University of Düsseldorf

About: University of Düsseldorf is a education organization based out in Düsseldorf, Germany. It is known for research contribution in the topics: Population & Diabetes mellitus. The organization has 25225 authors who have published 49155 publications receiving 1946434 citations.

Production of a keV x-ray beam from synchrotron radiation in relativistic laser-plasma interaction.

Abstract: We demonstrate that a beam of x-ray radiation can be generated by simply focusing a single high-intensity laser pulse into a gas jet. A millimeter-scale laser-produced plasma creates, accelerates, and wiggles an ultrashort and relativistic electron bunch. As they propagate in the ion channel produced in the wake of the laser pulse, the accelerated electrons undergo betatron oscillations, generating a femtosecond pulse of synchrotron radiation, which has keV energy and lies within a narrow (50 mrad) cone angle.

The Ontogeny of Human Gyrification

Abstract: During development the human cortex changes from a smooth lissencephalic structure to one that is highly convoluted. Increases in the degree of cortical folding are associated with brain size only for the first part of brain growth; during the second half, differences in cortical folding match those of brain size, resulting in no change in the degree of folding. When the degree of cortical folding is studied as a function of age, a brief postnatal overshoot, an effect of brain size, is observed. The analysis suggests that the mechanical hypothesis of cortical buckling can best explain the degree of cortical folding, but that other hypotheses, like gyrogenesis, are required to explain the placement and orientation of sulci. The adult asymptote in degree of cortical folding is associated with the onset and disappearance of single subplate lamina, suggesting that subplate:cortical plate associations should be examined as causal for gyrification. Areas whose sulci differ in length between the two hemispheres have similar degrees of convolutedness, supporting interpretations that the sizes of gyri are asymmetric in the two hemispheres. The ontogenetic data support the thesis that human cortical proportions evolved when the brain enlarged in size and that the process was not one of neoteny.

Intraadrenal Interactions in the Regulation of Adrenocortical Steroidogenesis

Abstract: I. Introduction: The Adrenal Functional Unit II. Interaction Between Adrenal Medulla and Adrenal Cortex A. Relationship between medullary and cortical cells B. Paracrine control of adrenocortical function by the adrenal medulla C. Gap junctions in the adrenal cortex D. Summary III. Innervation of the Adrenal Cortex A. Evidence for a nerve supply to the adrenal cortex B. The source of adrenocortical innervation C. Regulation of adrenocortical innervation D. Role of the splanchnic nerve in regulating adrenocortical neural function E. Influence of adrenal innervation on adrenocortical function F. Effects of neurotransmitter substances on adrenocortical function G. Summary IV. The Vascular System of the Adrenal Gland A. Regulation of blood flow B. Relationship between blood flow and steroid secretion C. Effects of vascular endothelial cell products on steroid secretion D. Summary V. The Intraadrenal CRH/ACTH System A. Extrapituitary effect of CRH B. Intraadrenal ACTH C. Intraadrenal CRH and CRH receptors D. F...

Scalable designs for quasiparticle-poisoning-protected topological quantum computation with Majorana zero modes

Abstract: We present designs for scalable quantum computers composed of qubits encoded in aggregates of four or more Majorana zero modes, realized at the ends of topological superconducting wire segments that are assembled into superconducting islands with significant charging energy. Quantum information can be manipulated according to a measurement-only protocol, which is facilitated by tunable couplings between Majorana zero modes and nearby semiconductor quantum dots. Our proposed architecture designs have the following principal virtues: (1) the magnetic field can be aligned in the direction of all of the topological superconducting wires since they are all parallel; (2) topological T junctions are not used, obviating possible difficulties in their fabrication and utilization; (3) quasiparticle poisoning is abated by the charging energy; (4) Clifford operations are executed by a relatively standard measurement: detection of corrections to quantum dot energy, charge, or differential capacitance induced by quantum fluctuations; (5) it is compatible with strategies for producing good approximate magic states.