13,476 research outputs found
Regularity properties for general HJB equations. A BSDE method
In this work we investigate regularity properties of a large class of
Hamilton-Jacobi-Bellman (HJB) equations with or without obstacles, which can be
stochastically interpreted in form of a stochastic control system which
nonlinear cost functional is defined with the help of a backward stochastic
differential equation (BSDE) or a reflected BSDE (RBSDE). More precisely, we
prove that, firstly, the unique viscosity solution of such a HJB
equation over the time interval with or without an obstacle, and with
terminal condition at time , is jointly Lipschitz in , for
running any compact subinterval of . Secondly, for the case that
solves a HJB equation without an obstacle or with an upper obstacle it is shown
under appropriate assumptions that is jointly semiconcave in .
These results extend earlier ones by Buckdahn, Cannarsa and Quincampoix [1].
Our approach embeds their idea of time change into a BSDE analysis. We also
provide an elementary counter-example which shows that, in general, for the
case that solves a HJB equation with a lower obstacle the semi-concavity
doesn't hold true.Comment: 30 page
Possible link of a structurally driven spin flip transition and the insulator-metal transition in the perovskite LaBaCoO
The complex nature of the magnetic ground state in LaACoO
(A = Ca, Sr, Ba) has been investigated via neutron scattering. It was
previously observed that ferromagnetic (FM) as well as antiferromagnetic (AFM)
correlations can coexist prior to the insulator-metal transition (IMT). We
focused on a unique region in the Ba phase diagram, from x = 0.17 - 0.22, in
which a commensurate AFM phase appears first with a propagation vector, k = (0,
-0.5, 0.5), and the Co moment in the (001) plane of the rhombohedral
lattice. With increasing x, the AFM component weakens while an FM order appears
with the FM Co moment directed along the (001) (=(111)) axis. By x
= 0.22, a spin flip to new FM component appears as the crystal fully transforms
to an orthorhombic (Pnma) structure, with the Co moments pointing along a new
direction, (001) (=(110)). It is the emergence of the magnetic Pnma
phase that leads to IMT.Comment: 5 page
TRPV4, TRPC1, and TRPP2 assemble to form a flow-sensitive heteromeric channel
Transient receptor potential (TRP) channels, a superfamily of ion channels, can be divided into 7 subfamilies, including TRPV, TRPC, TRPP, and 4 others. Functional TRP channels are tetrameric complexes consisting of 4 pore-forming subunits. The purpose of this study was to explore the heteromerization of TRP subunits crossing different TRP subfamilies. Two-step coimmunoprecipitation (co-IP) and fluorescence resonance energy transfer (FRET) were used to determine the interaction of the different TRP subunits. Patch-clamp and cytosolic Ca2+ measurements were used to determine the functional role of the ion channels in flow conditions. The analysis demonstrated the formation of a heteromeric TRPV4-C1-P2 complex in primary cultured rat mesenteric artery endothelial cells (MAECs) and HEK293 cells that were cotransfected with TRPV4, TRPC1, and TRPP2. In functional experiments, pore-dead mutants for each of these 3 TRP isoforms nearly abolished the flow-induced cation currents and Ca2+ increase, suggesting that all 3 TRPs contribute to the ion permeation pore of the channels. We identified the first heteromeric TRP channels composed of subunits from 3 different TRP subfamilies. Functionally, this heteromeric TRPV4- C1-P2 channel mediates the flow-induced Ca2+ increase in native vascular endothelial cells.-Du, J., Ma, X., Shen, B., Huang, Y., Birnbaumer, L., Yao, X. TRPV4, TRPC1, and TRPP2 assemble to form a flowsensitive heteromeric channel.Fil: Du, Juan. Chinese University Of Hong Kong; Hong Kong. Anhui Medical University; ChinaFil: Ma, Xin. Chinese University Of Hong Kong; Hong KongFil: Shen, Bing. Chinese University Of Hong Kong; Hong Kong. Anhui Medical University; ChinaFil: Huang, Yu. Chinese University Of Hong Kong; Hong KongFil: Birnbaumer, Lutz. Consejo Nacional de Investigaciones CientÃficas y Técnicas; Argentina. National Institutes of Health; Estados UnidosFil: Yao, Xiaoqiang. Chinese University Of Hong Kong; Hong Kon
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