Prototype effects in discourse and the synonymy issue: Two Lakota postpositions

Despite of being fully synonymous at the semantic level, the postpositions el "locative/directional" and ekta "locative/directional" in Lakota (Siouan, Central North America) display different semantic cores in discourse: the semantic prototype for el is the role of locative, while the semantic prototype for ekta is the role of directional. Both the functional synonymy between el and ekta and the observed prototype effects can be attributed to constellations created by grammaticalization processes: when an innovative grammatical element is developing-in this case, ekta-replacement of a functionally equivalent older element-in this case, el-is unlikely, to happen overnight, so that the innovative and the older element can be expected to coexist for a while, and to share functional domains

Unwinding of a one-dimensional topological superconductor

We show that a topological superconductor made of four chains of superconducting spinless fermions characterized by four Majorana edge states can adiabatically be deformed into a trivial band insulator. To unwind this time-reversal invariant topological superconductor, interactions to spinful fermions are switched on along an adiabatic path. Thereby, we couple modes which belong to two different representations of the time-reversal symmetry operator T with T^2 = 1 and T^2 = -1, respectively. This observation can be understood by investigating how the relevant symmetries act on the entanglement spectrum giving rise to four instead of eight different topological phases with Majorana edge modes. We also show that a simple level crossing of doubly and singly degenerate states occurs in the entanglement spectrum upon deforming the quantum state.Comment: 7 pages, substantial changes in the semantics compared to first versio

The Floquet-Boltzmann equation

Periodically driven quantum systems can be used to realize quantum pumps, ratchets, artificial gauge fields and novel topological states of matter. Starting from the Keldysh approach, we develop a formalism, the Floquet-Boltzmann equation, to describe the dynamics and the scattering of quasiparticles in such systems. The theory builds on a separation of time-scales. Rapid, periodic oscillations occurring on a time scale $T_0=2 \pi/\Omega$, are treated using the Floquet formalism and quasiparticles are defined as eigenstates of a non-interacting Floquet Hamiltonian. The dynamics on much longer time scales, however, is modelled by a Boltzmann equation which describes the semiclassical dynamics of the Floquet-quasiparticles and their scattering processes. As the energy is conserved only modulo $\hbar \Omega$, the interacting system heats up in the long-time limit. As a first application of this approach, we compute the heating rate for a cold-atom system, where a periodical shaking of the lattice was used to realize the Haldane model.Comment: 12 pages + 3 pages of appendix, 13 figure

Investigating Philadelphia's Uncertified Childcare Providers

Reinvestment Fund's ChildCare Map provides information about the location, size, and quality of early childcare centers operating in Philadelphia. When ChildCare Map launched in 2014 researchers identified a large number of "uncertified providers"--childcare centers operating in Philadelphia, but not listed in the state's OCDEL database. Uncertified providers operate outside of the state's official records, and therefore very little information exists about their size, services, or quality

Secondary task for full flight simulation incorporating tasks that commonly cause pilot error: Time estimation

The task of time estimation, an activity occasionally performed by pilots during actual flight, was investigated with the objective of providing human factors investigators with an unobtrusive and minimally loading additional task that is sensitive to differences in flying conditions and flight instrumentation associated with the main task of piloting an aircraft simulator. Previous research indicated that the duration and consistency of time estimates is associated with the cognitive, perceptual, and motor loads imposed by concurrent simple tasks. The relationships between the length and variability of time estimates and concurrent task variables under a more complex situation involving simulated flight were clarified. The wrap-around effect with respect to baseline duration, a consequence of mode switching at intermediate levels of concurrent task distraction, should contribute substantially to estimate variability and have a complex effect on the shape of the resulting distribution of estimates

Random Field effects in field-driven quantum critical points

We investigate the role of disorder for field-driven quantum phase transitions of metallic antiferromagnets. For systems with sufficiently low symmetry, the combination of a uniform external field and non-magnetic impurities leads effectively to a random magnetic field which strongly modifies the behavior close to the critical point. Using perturbative renormalization group, we investigate in which regime of the phase diagram the disorder affects critical properties. In heavy fermion systems where even weak disorder can lead to strong fluctuations of the local Kondo temperature, the random field effects are especially pronounced. We study possible manifestation of random field effects in experiments and discuss in this light neutron scattering results for the field riven quantum phase transition in CeCu_5.8Au_0.2.Comment: 8 page