Logarithmic degenerations of Landau-Ginzburg models for toric orbifolds and global tt^* geometry

We discuss the behavior of Landau-Ginzburg models for toric orbifolds near the large volume limit. This enables us to express mirror symmetry as an isomorphism of Frobenius manifolds which aquire logarithmic poles along a boundary divisor. If the toric orbifold admits a crepant resolution we construct a global moduli space on the B-side and show that the associated tt^*-geometry exists globally.Comment: 40 page

Gibt es ein Europäisches Verwaltungsrecht? Vortrag vom 08. Januar 2010 im Rahmen einer Veranstaltung des Vereins zur Förderung der Europäischen Rechtslinguistik e.V. an der Universität zu Köln

Der Beitrag schildert an Beispielen aus der Rechtsprechung des Europäischen Gerichtshofs (EuGH), wie sich ausgehend von der Regel, dass jeder Mitgliedstaat das Gemeinschaftsrecht nach eigenem nationalstaatlichen Verwaltungsrecht vollzieht (sog. Vollzugskompetenz der Mitgliedstaaten) in den letzten Jahren gleichwohl Ansätze eines gemeinsamen Europäischen Verwaltungsrechts entwickelt haben. Hierbei werden zunächst die Wirkungsweisen des Effektivitätsgebotes und des Diskriminierungsverbotes erläutert, die als Grund legende Prinzipen dem nationalen Verwaltungsvollzug zugrunde liegen müssen. Daneben erläutert der Beitrag als weitere systematische Grundstrukturen, die für eine gleichmäßige Anwendung des Verwaltungsrechts in allen Mitgliedstaaten kennzeichnend sind, exemplarisch den Grundsatz der Verhältnismäßigkeit, den Grundsatz des Vertrauensschutzes und den Grundsatz der Rechtssicherheit. Im Fazit konstatiert der Verfasser eine durch den EuGH forcierte Rechtsfortbildung, die sich deutlich in Richtung auf ein sich ständig verdichtendes Europäisches Verwaltungsrecht weiterentwickelt

Is wave-particle objectivity compatible with determinism and locality?

Wave-particle duality, superposition and entanglement are among the most counterintuitive features of quantum theory. Their clash with our classical expectations motivated hidden-variable (HV) theories. With the emergence of quantum technologies we can test experimentally the predictions of quantum theory {\em versus} HV theories and put strong restrictions on their key assumptions. Here we study an entanglement-assisted version of the quantum delayed-choice experiment and show that the extension of HV to the controlling devices only exacerbates the contradiction. We compare HV theories that satisfy the conditions of objectivity (a property of photons being either particles or waves, but not both), determinism, and local independence of hidden variables with quantum mechanics. Any two of the above conditions are compatible with it. The conflict becomes manifest when all three conditions are imposed and persists for any non-zero value of entanglement. We propose an experiment to test our conclusions.Comment: A published version. The logic is similar to the original version, but many changes were introduce

Manipulating type-I and type-II Dirac polaritons in cavity-embedded honeycomb metasurfaces

Pseudorelativistic Dirac quasiparticles have emerged in a plethora of artificial graphene systems that mimic the underlying honeycomb symmetry of graphene. However, it is notoriously difficult to manipulate their properties without modifying the lattice structure. Here we theoretically investigate polaritons supported by honeycomb metasurfaces and, despite the trivial nature of the resonant elements, we unveil rich Dirac physics stemming from a non-trivial winding in the light-matter interaction. The metasurfaces simultaneously exhibit two distinct species of massless Dirac polaritons, namely type-I and type-II. By modifying only the photonic environment via an enclosing cavity, one can manipulate the location of the type-II Dirac points, leading to qualitatively different polariton phases. This enables one to alter the fundamental properties of the emergent Dirac polaritons while preserving the lattice structure - a unique scenario which has no analog in real or artificial graphene systems. Exploiting the photonic environment will thus give rise to unexplored Dirac physics at the subwavelength scale

Transrectal Ultrasound Guided Prostate Biopsy Antibiotic Prophylaxis: Standard vs. Augmented Antibiotic Regimens, and the Role for Pre-Biopsy Rectal Swab Cultures

Objectives: To evaluate peri-procedural antibiotic prophylaxis regimens based on pre-procedural rectal swab cultures. To evaluate infection rates between transrectalbiopsy patients receiving FQs alone and those receiving ceftriaxone or gentamicin in addition to FQs.https://jdc.jefferson.edu/patientsafetyposters/1056/thumbnail.jp

Trends in Gender Segregation in the Choice of Science and Engineering Majors

Numerous theories have been put forward for the high and continuing levels of gender segregation, but research has not systematically examined the extent to which these theories for the gender gap are consistent with actual trends. Using both administrative data and three education panel datasets, we evaluate several prominent explanations for the persisting gender gap in STEM fields, and find that none of them are empirically satisfactory. Instead, the persisting gender gap in STEM fields is plausibly attributable to a females' greater preference relative to males for elite occupational careers that are less "vocationally oriented" in the undergraduate years and that permit greater flexibility in undergraduate. This hypothesis is supported by an analysis of gendered pathways to medical and law school

Vacuum-Induced Quantum Decoherence and the Entropy Puzzle

Or: ``How to generate an ensemble in a single event?'' Following recent work on entropy in strong interactions, I explain the concept of environment-induced quantum decoherence in elementary quantum mechanics. The classically chaotic inverted oscillator becomes partially decoherent already in the environment of a single other oscillator performing only vacuum fluctuations. One finds exponential entropy growth in the subsystem with a Lyapunov exponent, which approaches the classical one for weak coupling. Presented at the Workshops on ``Quantum Infrared Physics'', Paris, 6 - 10.6.94, and ``QCD 94'', Montpellier, 7 - 13.7.94. Invited talk at the NATO Adv. Res. Workshop on ``Hot Hadronic Matter'', Divonne, 27.6. - 1.7.94. To appear in the Proceedings.Comment: 12 pages, CERN-TH.7372/9

Phenomenology of Dirac Neutrinogenesis in Split Supersymmetry

In Split Supersymmetry scenarios the possibility of having a very heavy gravitino opens the door to alleviate or completely solve the worrisome "gravitino problem'' in the context of supersymmetric baryogenesis models. Here we assume that the gravitino may indeed be heavy and that Majorana masses for neutrinos are forbidden as well as direct Higgs Yukawa couplings between left and right handed neutrinos. We investigate the viability of the mechansim known as Dirac leptogenesis (or neutrinogenesis), both in solving the baryogenesis puzzle and explaining the observed neutrino sector phenomenology. To successfully address these issues, the scenario requires the introduction of at least two new heavy fields. If a hierarchy among these new fields is introduced, and some reasonable stipulations are made on the couplings that appear in the superpotential, it becomes a generic feature to obtain the observed large lepton mixing angles. We show that in this case, it is possible simultaneously to obtain both the correct neutrino phenomenology and enough baryon number, making thermal Dirac neutrinogenesis viable. However, due to cosmological constraints, its ability to satisfy these constraints depends nontrivially on model parameters of the overall theory, particularly the gravitino mass. Split supersymmetry with m_{3/2} between 10^{5} and 10^{10} GeV emerges as a "natural habitat" for thermal Dirac neutrinogenesis.Comment: 37 pages, 8 figure