106,349 research outputs found
Thurston's sphere packings on 3-dimensional manifolds, I
Thurston's sphere packing on a 3-dimensional manifold is a generalization of
Thusrton's circle packing on a surface, the rigidity of which has been open for
many years. In this paper, we prove that Thurston's Euclidean sphere packing is
locally determined by combinatorial scalar curvature up to scaling, which
generalizes Cooper-Rivin-Glickenstein's local rigidity for tangential sphere
packing on 3-dimensional manifolds. We also prove the infinitesimal rigidity
that Thurston's Euclidean sphere packing can not be deformed (except by
scaling) while keeping the combinatorial Ricci curvature fixed.Comment: Arguments are simplife
Sliced rotated sphere packing designs
Space-filling designs are popular choices for computer experiments. A sliced
design is a design that can be partitioned into several subdesigns. We propose
a new type of sliced space-filling design called sliced rotated sphere packing
designs. Their full designs and subdesigns are rotated sphere packing designs.
They are constructed by rescaling, rotating, translating and extracting the
points from a sliced lattice. We provide two fast algorithms to generate such
designs. Furthermore, we propose a strategy to use sliced rotated sphere
packing designs adaptively. Under this strategy, initial runs are uniformly
distributed in the design space, follow-up runs are added by incorporating
information gained from initial runs, and the combined design is space-filling
for any local region. Examples are given to illustrate its potential
application
Rotated sphere packing designs
We propose a new class of space-filling designs called rotated sphere packing
designs for computer experiments. The approach starts from the asymptotically
optimal positioning of identical balls that covers the unit cube. Properly
scaled, rotated, translated and extracted, such designs are excellent in
maximin distance criterion, low in discrepancy, good in projective uniformity
and thus useful in both prediction and numerical integration purposes. We
provide a fast algorithm to construct such designs for any numbers of
dimensions and points with R codes available online. Theoretical and numerical
results are also provided
Rigidity of infinite disk patterns
Let P be a locally finite disk pattern on the complex plane C whose
combinatorics are described by the one-skeleton G of a triangulation of the
open topological disk and whose dihedral angles are equal to a function
\Theta:E\to [0,\pi/2] on the set of edges. Let P^* be a combinatorially
equivalent disk pattern on the plane with the same dihedral angle function. We
show that P and P^* differ only by a euclidean similarity.
In particular, when the dihedral angle function \Theta is identically zero,
this yields the rigidity theorems of B. Rodin and D. Sullivan, and of O.
Schramm, whose arguments rely essentially on the pairwise disjointness of the
interiors of the disks. The approach here is analytical, and uses the maximum
principle, the concept of vertex extremal length, and the recurrency of a
family of electrical networks obtained by placing resistors on the edges in the
contact graph of the pattern.
A similar rigidity property holds for locally finite disk patterns in the
hyperbolic plane, where the proof follows by a simple use of the maximum
principle. Also, we have a uniformization result for disk patterns.
In a future paper, the techniques of this paper will be extended to the case
when 0 \le \Theta < \pi. In particular, we will show a rigidity property for a
class of infinite convex polyhedra in the 3-dimensional hyperbolic space.Comment: 33 pages, published versio
Isospin effect on baryon and charge fluctuations from the pNJL model
We have studied the possible isospin corrections on the skewness and kurtosis
of net-baryon and net-charge fluctuations in the isospin asymmetric matter
formed in Au+Au collisions at RHIC-BES energies, based on a 3-flavor
polyakov-looped Nambu-Jona-Lasinio model. With typical scalar-isovector and
vector-isovector couplings leading to the splitting of and quark chiral
phase transition boundaries and critical points, we have observed dramatic
isospin effects on the susceptibilities, especially those of net-charge
fluctuations. Reliable experimental measurements at even lower collision
energies are encouraged to confirm the observed isospin effects.Comment: 6 pages, 3 figure
Two Particle States in a Box and the -Matrix in Multi-Channel Scattering
Using a quantum mechanical model, the exact energy eigenstates for
two-particle two-channel scattering are studied in a cubic box with periodic
boundary conditions.
A relation between the exact energy eigenvalue in the box and the two-channel
-matrix elements in the continuum is obtained. This result can be viewed as
a generalization of the well-known L\"uscher's formula which establishes a
similar relation in elastic scattering.Comment: 4 pages, typeset with ws-ijmpa.cls. Talk presented at International
Conference on QCD and Hadronic Physics, June 16-20, 2005, Beijing, China. One
reference adde
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