46,172 research outputs found
Resilience governance and acceptance of climate change policy in Taiwan Special Municipalities
Resilience is a city's continual ability to resist, adapt, change, and prepare for shocks and pressures, whether of environmental, social, institutional, or economic origin, in order to preserve city operations and improve responsiveness to future shocks. The goal of this research was to see how well each aspect of resilience governance (economic, social, environmental, and institutional) predicted acceptance of climate change policy (ACCP) in a Taiwan sample. A total of 1089 employees from the Environmental Protection Agency (EPA) from six special municipalities were included in the study (Taipei, New Taipei, Taoyuan, Taichung, Tainan, Kaohsiung). The analysis discovered that for all six cities, the economic dimension of resilience governance was significantly negatively correlated with the ACCP, while the social and institutional dimensions of resilience governance were significantly positively correlated with the ACCP. Furthermore, the institutional dimension of resilience governance was the only characteristic of resilience governance that consistently predicted EPA staffers' ACCP across six Taiwanese special municipalities
Internal Anisotropy of Collision Cascades
We investigate the internal anisotropy of collision cascades arising from the
branching structure. We show that the global fractal dimension cannot give an
adequate description of the geometrical structure of cascades because it is
insensitive to the internal anisotropy. In order to give a more elaborate
description we introduce an angular correlation function, which takes into
account the direction of the local growth of the branches of the cascades. It
is demonstrated that the angular correlation function gives a quantitative
description of the directionality and the interrelation of branches. The power
law decay of the angular correlation is evidenced and characterized by an
exponent and an angular correlation length different from the radius of
gyration. It is demonstrated that the overlapping of subcascades has a strong
effect on the angular correlation.Comment: RevteX, 8 pages, 6 .eps figures include
Signatures of cosmic tau-neutrinos
The importance and signatures of cosmic tau--(anti)neutrinos have been
studied for upward-- and downward--going and hadronic shower
event rates relevant for present and future underground water or ice detectors,
utilizing the unique and reliable ultrasmall-- predictions of the dynamical
(radiative) parton model. The upward--going event rates
calculated just from cosmic fluxes are sizeably
enhanced by taking into account cosmic fluxes
and their associated fluxes as well. The coupled transport
equations for the upward--going flux traversing
the Earth imply an enhancement of the attenuated and regenerated
flux typically around GeV with respect
to the initial cosmic flux. This enhancement turns out to be smaller than
obtained so far, in particular for flatter initial cosmic fluxes behaving like
. Downward--going events and in particular the
background--free and unique hadronic `double bang' and `lollipop' events allow
to test downward--going cosmic fluxes up to
about GeV.Comment: 32 pages, 6 figures; Added reference
Magnon Dispersion and Anisotropies in SrCu(BO)
We study the dispersion of the magnons (triplet states) in
SrCu(BO) including all symmetry-allowed Dzyaloshinskii-Moriya
interactions. We can reduce the complexity of the general Hamiltonian to a new
simpler form by appropriate rotations of the spin operators. The resulting
Hamiltonian is studied by both perturbation theory and exact numerical
diagonalization on a 32-site cluster. We argue that the dispersion is dominated
by Dzyaloshinskii-Moriya interactions. We point out which combinations of these
anisotropies affect the dispersion to linear-order, and extract their
magnitudes.Comment: 11 pages, 7 figures, 1 table, v2 conclusion shortened, figs clarifie
Modeling the radio and optical/NIR afterglows of GRB 980703: a numerical study
Extensive multi-band afterglow data are available for GRB 980703. Especially,
its radio afterglow was very bright and was monitored until more than 1000 days
after the trigger time. Additionally, there is no obvious special feature,
i.e., no rebrightenings, no plateau, and no special steep decay or slow decay
in the multi-band afterglow light curves. All these conditions make GRB 980703
a precious sample in gamma-ray burst research. Here we use the observational
data of GRB 980703 to test the standard fireball model in depth. It is found
that the model can give a satisfactory explanation to the multi-band and
overall afterglow light curves. The beaming angle of GRB 980703 is derived as
~0.23 radian, and the circum-burst medium density is ~ 27 cm-3. The total
isotropic equivalent kinetic energy of the ejecta is ~ 3.8E52 ergs. A
rest-frame extinction of Av ~ 2.5 mag in the host galaxy is also derived.Comment: 10 pages, 3 figures, PDF version only; typos corrected, to appear in:
Science in China Series
Evidence for Duality of Conifold from Fundamental String
We study the spectrum of BPS D5-D3-F1 states in type IIB theory, which are
proposed to be dual to D4-D2-D0 states on the resolved conifold in type IIA
theory. We evaluate the BPS partition functions for all values of the moduli
parameter in the type IIB side, and find them completely agree with the results
in the type IIA side which was obtained by using Kontsevich-Soibelman's
wall-crossing formula. Our result is a quite strong evidence for string
dualities on the conifold.Comment: 24 pages, 13 figures, v2: typos corrected, v3: explanations about
wall-crossing improved and figures adde
Missing Momentum Reconstruction and Spin Measurements at Hadron Colliders
We study methods for reconstructing the momenta of invisible particles in
cascade decay chains at hadron colliders. We focus on scenarios, such as SUSY
and UED, in which new physics particles are pair produced. Their subsequent
decays lead to two decay chains ending with neutral stable particles escaping
detection. Assuming that the masses of the decaying particles are already
measured, we obtain the momenta by imposing the mass-shell constraints. Using
this information, we develop techniques of determining spins of particles in
theories beyond the standard model. Unlike the methods relying on Lorentz
invariant variables, this method can be used to determine the spin of the
particle which initiates the decay chain. We present two complementary ways of
applying our method by using more inclusive variables relying on kinematic
information from one decay chain, as well as constructing correlation variables
based on the kinematics of both decay chains in the same event.Comment: Version to appear in JHE
Production of resonances in a thermal model: invariant-mass spectra and balance functions
We present a calculation of the pi+ pi- invariant-mass correlations and the
pion balance functions in the single-freeze-out model. A satisfactory agreement
with the data for Au+Au collisions is found.Comment: Contribution to QM 2004 (4 pages, 2 figures
Precise limits from lepton flavour violating processes on the Littlest Higgs model with T-parity
We recalculate the leading one-loop contributions to mu > e gamma and mu ->
eee in the Littlest Higgs model with T-parity, recovering previous results for
the former. When all the Goldstone interactions are taken into account, the
latter is also ultraviolet finite. The present experimental limits on these
processes require a somewhat heavy effective scale ~2.5 TeV, or the flavour
alignment of the Yukawa couplings of light and heavy leptons at the ~10% level,
or the splitting of heavy lepton masses to a similar precision. Present limits
on tau decays set no bounds on the corresponding parameters involving the tau
leptonComment: 41 pages, 11 figures; v3: matches published version in JHE
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