0000000000067513

AUTHOR

U. Meyer

showing 3 related works from this author

Application of DNA techniques for identification using human dental pulp as a source of DNA

1992

Dental pulp tissue could be obtained in most cases from materials obtained under experimental conditions and from forensic casework (air accidents, burned and putrefied bodies). Teeth extracted during dental treatment (n = 30) were stored for 6 weeks and 4 years at room temperature. In addition teeth (n = 10) extracted from jaw fragments that had been stored for 15 years at room temperature, and teeth extracted post mortem from actual identification cases (n = 8) were investigated. Following extraction from dental pulp tissue the DNA concentration was measured by fluorometry. The amount of DNA obtained from the dental pulp tissue of a single tooth varied from 6 micrograms to 50 micrograms D…

Sex Determination AnalysisImmunoblottingDot blotBiologyPolymerase Chain ReactionPathology and Forensic Medicinechemistry.chemical_compoundstomatognathic systemHumansFluorometryDental PulpSouthern blotHistocompatibility TestingDna concentrationSingle toothDNA FingerprintingMolecular biologyBlotBlotting Southernstomatognathic diseaseschemistryEvaluation Studies as TopicDegraded dnaHigh molecular weight dnaDNAForensic DentistryInternational Journal of Legal Medicine
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Positrons and Electrons Emitted in Elastic and Dissipative Heavy Ion Collisions

1987

The main research line of the Tori group is the study of the reaction dynamics of dissipative collisions between heavy ions ia positron and electron spectroscopy. The last five years since the Lahnstein-Conference1 are marked for our group by the installation of a new experimental device for detecting positrons and electrons emitted in these collisions, the so-called Tori spectrometer2. The first part of this report is devoted therefore to describe the main characteristics of this apparatus.

PhysicsElastic scatteringPositronDissipative systemElectronImpact parameterAtomic physicsNuclear ExperimentElectron spectroscopyElastic collisionIon
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Quark mean field model for nucleons in nuclei

1998

We propose the quark mean field model for nucleons in nuclei, where the meson mean fields created by other nucleons act on quarks in a nucleon and change the nucleon properties in nuclei. We take the constituent quark model for the nucleon, which naturally allows the direct coupling of pions and in turn other mesons as $\ensuremath{\sigma}$ and $\ensuremath{\omega}$ mesons. We find very good nuclear matter properties with the use of the nonlinear self-energy terms in the meson Lagrangian. We expect the spin-orbit splitting in finite nuclei to be large due to the large reduction of the nucleon mass, which is in agreement with experiment. The nucleon size increases by about 7% at the normal m…

PhysicsNuclear and High Energy PhysicsParticle physicsMesonHigh Energy Physics::LatticeHigh Energy Physics::PhenomenologyNuclear TheoryDown quarkConstituent quarkBottom quarkNuclear physicsStrange matterPionUp quarkHigh Energy Physics::ExperimentNuclear ExperimentNucleonPhysical Review C
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