Reentrant Melting of Soliton Lattice Phase in Bilayer Quantum Hall System

At large parallel magnetic field $B_\parallel$, the ground state of bilayer quantum Hall system forms uniform soliton lattice phase. The soliton lattice will melt due to the proliferation of unbound dislocations at certain finite temperature leading to the Kosterlitz-Thouless (KT) melting. We calculate the KT phase boundary by numerically solving the newly developed set of Bethe ansatz equations, which fully take into account the thermal fluctuations of soliton walls. We predict that within certain ranges of $B_\parallel$, the soliton lattice will melt at $T_{\rm KT}$. Interestingly enough, as temperature decreases, it melts at certain temperature lower than $T_{\rm KT}$ exhibiting the reentrant behaviour of the soliton liquid phase.Comment: 11 pages, 2 figure

Cultural variation in individual's responses to incivility by colleagues of different rank: The role of descriptive and injunctive norms

The present research sought to establish how cultural settings create a normative context that determines individuals’ reactions to subtle forms of mistreatment. Two experimental studies (n = 449) examined individuals’ perceptions of high- and low-ranking individuals’ incivility in two national (Study 1) and two organizational (Study 2) cultural settings that varied in power distance. Consistent across studies, the uncivil actions of a high-ranking perpetrator were deemed more acceptable than the uncivil actions of a low-ranking perpetrator in the large power distance cultural settings, but not in a small power distance cultural setting. Differing injunctive norms (acceptability), but not descriptive norms (perceived likelihood of occurrence), contributed to cultural variations in the level of discomfort caused by incivility. In addition, perceptions of descriptive and injunctive norms coincided, but differed markedly in their associations with discomfort. We discuss the practical and theoretical implications of these findings

Thermodynamic Phase Diagram of the Quantum Hall Skyrmion System

We numerically study the interacting quantum Hall skyrmion system based on the Chern-Simons action. By noticing that the action is invariant under global spin rotations in the spin space with respect to the magnetic field direction, we obtain the low-energy effective action for a many skyrmion system. Performing extensive molecular dynamics simulations, we establish the thermodynamic phase diagram for a many skyrmion system.Comment: 4 pages, RevTex, 2 postscript figure

Massive skyrmions in quantum Hall ferromagnets

We apply the theory of elasticity to study the effects of skyrmion mass on lattice dynamics in quantum Hall systems. We find that massive Skyrme lattices behave like a Wigner crystal in the presence of a uniform perpendicular magnetic field. We make a comparison with the microscopic Hartree-Fock results to characterize the mass of quantum Hall skyrmions at $\nu=1$ and investigate how the low temperature phase of Skyrme lattices may be affected by the skyrmion mass.Comment: 6 pages and 2 figure

Workshop: Lassoing unicorns: how to map capabilities for better interdisciplinary research

Sometimes doing interdisciplinary work feels like trying to lasso unicorns. Working with big players from foreign disciplines and interdepartmental drifters. Negotiating over language and frameworks. Agreeing common research questions. All the while trying to gather data and do good work. Building on methods developed in ESRC and Horizon 2020 funded projects on interdisciplinary research, this workshop will: a) introduce the concept interdisciplinary capabilities - the disciplinary skills and informal aptitudes needed for people like environmental engineers, ecological economists and machine learning developers to work well together. b) present a mixed-method approach to mapping capabilities using bibliometric analysis and interviews. c) offer hands-on reflexive exercises on personal ‘capability mapping’, tailored to workshop participants The session will help scholars of all levels recognise power and knowledge in research and identify opportunities to steer that research together

Polyamide 11-Carbon Nanotubes Nanocomposites: Preliminary Investigation

The objective of this research is to develop an improved polyamide 11 (PA11) polymer with enhanced flame retardancy, thermal, and mechanical properties for selective laser sintering (SLS) rapid manufacturing. In the present study, a nanophase was introduced into polyamide 11 via twin screw extrusion. Arkema Rilsan® polyamide 11 molding polymer pellets were used with 1, 3, 5, and 7 wt% loadings of Arkema’s GraphistrengthTM multi-wall carbon nanotubes (MWNTs) to create a family of PA11-MWNT nanocomposites. Transmission electron microscopy and scanning electron microscopy were used to determine the degree and uniformity of dispersion. Injection molded test specimens were fabricated for physical, thermal, mechanical properties, and flammability measurements. Thermal stability of these polyamide 11-MWNT nanocomposites was examined by TGA. Mechanical properties such as ultimate tensile strength, rupture tensile strength, and elongation at rupture were measured. Flammability properties were also obtained using the UL 94 test method. All these different methods and subsequent polymer characteristics are discussed in this paper.Mechanical Engineerin