21,268 research outputs found
Bridge over troubled gas: clusters and associations under the SMC and LMC tidal stresses
We obtained SOAR telescope B and V photometry of 14 star clusters and 2
associations in the Bridge tidal structure connecting the LMC and SMC. These
objects are used to study the formation and evolution of star clusters and
associations under tidal stresses from the Clouds. Typical star clusters in the
Bridge are not richly populated and have in general relatively large diameters
(~30-35 pc), being larger than Galactic counterparts of similar age. Ages and
other fundamental parameters are determined with field-star decontaminated
photometry. A self-consistent approach is used to derive parameters for the
most-populated sample cluster NGC 796 and two young CMD templates built with
the remaining Bridge clusters. We find that the clusters are not coeval in the
Bridge. They range from approximately a few Myr (still related to optical HII
regions and WISE and Spitzer dust emission measurements) to about 100-200 Myr.
The derived distance moduli for the Bridge objects suggests that the Bridge is
a structure connecting the LMC far-side in the East to the foreground of the
SMC to the West. Most of the present clusters are part of the tidal dwarf
candidate D 1, which is associated with an H I overdensity. We find further
evidence that the studied part of the Bridge is evolving into a tidal dwarf
galaxy, decoupling from the Bridge.Comment: 15 pages, 15 figures, MNRAS, Accepted 2015 July 2
Recovering -invariant metrics on from the equivariant spectrum
We prove an inverse spectral result for -invariant metrics on
based on the so-called asymptotic equivariant spectrum. This is roughly the
spectrum together with large weights of the action on the eigenspaces.
Our result generalizes an inverse spectral result of the first and last named
authors, together with Victor Guillemin, concerning -invariant metrics on
which are invariant under the antipodal map. We use higher order terms in
the asymptotic expansion of a natural spectral measure associated with the
Laplacian and the action.Comment: 16 pages; minor revisions throughout following comments from referee
Hearing Delzant polytopes from the equivariant spectrum
Let M^{2n} be a symplectic toric manifold with a fixed T^n-action and with a
toric K\"ahler metric g. Abreu asked whether the spectrum of the Laplace
operator on determines the moment polytope
of M, and hence by Delzant's theorem determines M up to symplectomorphism. We
report on some progress made on an equivariant version of this conjecture. If
the moment polygon of M^4 is generic and does not have too many pairs of
parallel sides, the so-called equivariant spectrum of M and the spectrum of its
associated real manifold M_R determine its polygon, up to translation and a
small number of choices. For M of arbitrary even dimension and with integer
cohomology class, the equivariant spectrum of the Laplacian acting on sections
of a naturally associated line bundle determines the moment polytope of M.Comment: 23 pages, 9 figures; v2 is published versio
Unavoidable Conflict Between Massive Gravity Models and Massive Topological Terms
Massive gravity models in 2+1 dimensions, such as those obtained by adding to
Einstein's gravity the usual Fierz-Pauli, or the more complicated Ricci scalar
squared (), terms, are tree level unitary. Interesting enough these
seemingly harmless systems have their unitarity spoiled when they are augmented
by a Chern-Simons term. Furthermore, if the massive topological term is added
to gravity, or to gravity
(higher-derivative gravity), which are nonunitary at the tree level, the
resulting models remain nonunitary. Therefore, unlike the common belief, as
well as the claims in the literature, the coexistence between three-dimensional
massive gravity models and massive topological terms is conflicting.Comment: 13 pages, no figure
Analysis of water absorbency into knitted spacer structures
The absorbency properties of knitted structures are very important in designing garments that both remove liquid sweat from the skin and provide tactile and sensorial comfort to the wearer. Water absorbency by knitted spacer structures was experimentally investigated using a gravimetric absorbency tester to record absorbency rate, total absorbency, and time taken to saturate the structure. The geometry of spacer structures was analyzed and a model created to define the capillary characteristic in the spacer yarn. Absorbency into the spacer structures was modeled using the fabric parameters, the capillary radius, and the properties of water. Experimental and theoretical results were compared to validate the models
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