6,321 research outputs found
Everyday makers and expert citizens. Building political not social capital
"Since the elitist myth of the governing class seeks to eliminate the people in connection with the destiny of society, this myth explodes when it is confronted with the fact that without the people, the rulers are as free spirits wandering lonely, dejected and unemployed in an empty world. But without rulers dominating their existence, the people, on the contrary, find that very freedom that calls forth their most creative efforts. Elitism places blind faith in an appropriate governing class. The democratic ideal incorporates a tempered trust in the wisdom and creative genius of the people" (Easton, 1947:418)
Recent revisions to corporate profits: what we know and when we knew it
Initial estimates in the National Income and Product Accounts significantly overstated U.S. corporate profits for the 1998-2000 period. Subsequent revisions reveal that the profitability of the nation's corporate sector in the late 1990s was substantially weaker than "real-time" data indicated. An unexpected surge in employee stock options exercised-and perhaps, in some sectors, firms' inflated statements of profit-may help explain the large downward revisions.Corporate profits ; Stock options ; Statistics ; Economic indicators
Bubble generation in a twisted and bent DNA-like model
The DNA molecule is modeled by a parabola embedded chain with long-range
interactions between twisted base pair dipoles. A mechanism for bubble
generation is presented and investigated in two different configurations. Using
random normally distributed initial conditions to simulate thermal
fluctuations, a relationship between bubble generation, twist and curvature is
established. An analytical approach supports the numerical results.Comment: 7 pages, 8 figures. Accepted for Phys. Rev. E (in press
Characteristics of the polymer transport in ratchet systems
Molecules with complex internal structure in time-dependent periodic
potentials are studied by using short Rubinstein-Duke model polymers as an
example. We extend our earlier work on transport in stochastically varying
potentials to cover also deterministic potential switching mechanisms,
energetic efficiency and non-uniform charge distributions. We also use currents
in the non-equilibrium steady state to identify the dominating mechanisms that
lead to polymer transportation and analyze the evolution of the macroscopic
state (e.g., total and head-to-head lengths) of the polymers. Several numerical
methods are used to solve the master equations and nonlinear optimization
problems. The dominating transport mechanisms are found via graph optimization
methods. The results show that small changes in the molecule structure and the
environment variables can lead to large increases of the drift. The drift and
the coherence can be amplified by using deterministic flashing potentials and
customized polymer charge distributions. Identifying the dominating transport
mechanism by graph analysis tools is found to give insight in how the molecule
is transported by the ratchet effect.Comment: 35 pages, 17 figures, to appear in Phys. Rev.
Are there nodes in LaFePO, BaFe(AsP), and KFeAs ?
We reexamined the experimental evidences for the possible existence of the
superconducting (SC) gap nodes in the three most suspected Fe-pnictide SC
compounds: LaFePO, BaFe(AsP), and KFeAs. We
showed that while the -linear temperature dependence of the penetration
depth of these three compounds indicate extremely clean nodal gap
superconductors, the thermal conductivity data unambiguously showed that LaFePO and
BaFe(AsP) are extremely dirty, while KFeAs
can be clean. This apparently conflicting experimental data casts a serious
doubt on the nodal gap possibility on LaFePO and
BaFe(AsP).Comment: 11 pages, 5 figures A new section "4. Remark on the quantum
oscillation (QO) experiments" is adde
Robustness of Quadratic Solitons with Periodic Gain
We address the robustness of quadratic solitons with periodic
non-conservative perturbations. We find the evolution equations for
guiding-center solitons under conditions for second-harmonic generation in the
presence of periodic multi-band loss and gain. Under proper conditions, a
robust guiding-center soliton formation is revealed.Comment: 5 pages, 5 figures, submitted to Optics Communicatio
Collapse arrest and soliton stabilization in nonlocal nonlinear media
We investigate the properties of localized waves in systems governed by
nonlocal nonlinear Schrodinger type equations. We prove rigorously by bounding
the Hamiltonian that nonlocality of the nonlinearity prevents collapse in,
e.g., Bose-Einstein condensates and optical Kerr media in all physical
dimensions. The nonlocal nonlinear response must be symmetric, but can be of
completely arbitrary shape. We use variational techniques to find the soliton
solutions and illustrate the stabilizing effect of nonlocality.Comment: 4 pages with 3 figure
Hyperfine Interactions in the Heavy Fermion CeMIn_5 Systems
The CeMIn_5 heavy fermion compounds have attracted enormous interest since
their discovery six years ago. These materials exhibit a rich spectrum of
unusual correlated electron behavior, and may be an ideal model for the high
temperature superconductors. As many of these systems are either
antiferromagnets, or lie close to an antiferromagnetic phase boundary, it is
crucial to understand the behavior of the dynamic and static magnetism. Since
neutron scattering is difficult in these materials, often the primary source of
information about the magnetic fluctuations is Nuclear Magnetic Resonance
(NMR). Therefore, it is crucial to have a detailed understanding of how the
nuclear moments interact with conduction electrons and the local moments
present in these systems. Here we present a detailed analysis of the hyperfine
coupling based on anisotropic hyperfine coupling tensors between nuclear
moments and local moments. Because the couplings are symmetric with respect to
bond axes rather than crystal lattice directions, the nuclear sites can
experience non-vanishing hyperfine fields even in high symmetry sites.Comment: 15 pages, 5 figure
Tunable Fano effect in parallel-coupled double quantum dot system
With the help of the Green function technique and the equation of motion
approach, the electronic transport through a parallel-coupled double quantum
dot(DQD) is theoretically studied. Owing to the inter-dot coupling, the bonding
and antibonding states of the artificial quantum-dot-molecule may constitute an
appropriate basis set. Based on this picture, the Fano interference in the
conductance spectra of the DQD system is readily explained. The possibility of
manipulating the Fano lineshape in the tunnelling spectra of the DQD system is
explored by tuning the dot-lead coupling, the inter-dot coupling, the magnetic
flux threading the ring connecting dots and leads, and the flux difference
between two sub-rings. It has been found that by making use of various tuning,
the direction of the asymmetric tail of Fano lineshape may be flipped by
external fields, and the continuous conductance spectra may be magnetically
manipulated with lineshape retained. More importantly, by adjusting the
magnetic flux, the function of two molecular states can be exchanged, giving
rise to a swap effect, which might play a role as a qubit in the quantum
computation.Comment: 9 pages, 10 figure
- …