1,214 research outputs found
A geometric study of Wasserstein spaces: Hadamard spaces
Optimal transport enables one to construct a metric on the set of
(sufficiently small at infinity) probability measures on any (not too wild)
metric space X, called its Wasserstein space W(X). In this paper we investigate
the geometry of W(X) when X is a Hadamard space, by which we mean that has
globally non-positive sectional curvature and is locally compact. Although it
is known that -except in the case of the line- W(X) is not non-positively
curved, our results show that W(X) have large-scale properties reminiscent of
that of X. In particular we define a geodesic boundary for W(X) that enables us
to prove a non-embeddablity result: if X has the visibility property, then the
Euclidean plane does not admit any isometric embedding in W(X).Comment: This second version contains only the first part of the preceeding
one. The visibility properties of W(X) and the isometric rigidity have been
split off to other articles after a referee's commen
Morphology-driven absorption and emission colour changes in liquid-crystalline, cyclometallated platinum(ii) complexes
Platinum(II) complexes of 1,3-bis(2-pyridyl)benzene containing two alkyl chains are unexpectedly mesomorphic and capable of changing absorption and emission colour depending on the phase obtained after thermal treatment
A Viro theorem without convexity hypothesis for trigonal curves
A cumbersome hypothesis for Viro patchworking of real algebraic curves is the convexity of the given subdivision. It is an open question in general to know whether the convexity is necessary. In the case of trigonal curves we interpret Viro method in terms of dessins d'enfants. Gluing the dessins d'enfants in a coherent way we prove that no convexity hypothesis is required to patchwork such curve
Markovian tricks for non-Markovian trees: contour process, extinction and scaling limits
In this work, we study a family of non-Markovian trees modeling populations
where individuals live and reproduce independently with possibly time-dependent
birth-rate and lifetime distribution. To this end, we use the coding process
introduced by Lambert. We show that, in our situation, this process is no
longer a L{\'e}vy process but remains a Feller process and we give a complete
characterization of its generator. This allows us to study the model through
well-known Markov processes techniques. On one hand, introducing a scale
function for such processes allows us to get necessary and sufficient
conditions for extinction or non-extinction and to characterize the law of such
trees conditioned on these events. On the other hand, using Lyapounov drift
techniques , we get another set of, easily checkable, sufficient criteria for
extinction or non-extinction and some tail estimates for the tree length.
Finally, we also study scaling limits of such random trees and observe that the
Bessel tree appears naturally
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