Mutually Catalytic Branching in The Plane: Infinite Measure States
| Dublin Core | PKP Metadata Items | Metadata for this Document | |
| 1. | Title | Title of document | Mutually Catalytic Branching in The Plane: Infinite Measure States |
| 2. | Creator | Author's name, affiliation, country | Donald A. Dawson; Carleton University |
| 2. | Creator | Author's name, affiliation, country | Alison M. Etheridge; University of Oxford |
| 2. | Creator | Author's name, affiliation, country | Klaus Fleischmann; Weierstrass Institute for Applied Analysis and Stochastics |
| 2. | Creator | Author's name, affiliation, country | Leonid Mytnik; Technion - Israel Institute of Technology |
| 2. | Creator | Author's name, affiliation, country | Edwin A. Perkins; The University of British Columbia |
| 2. | Creator | Author's name, affiliation, country | Jie Xiong; University of Tennessee |
| 3. | Subject | Discipline(s) | Mathematics |
| 3. | Subject | Keyword(s) | Catalyst, reactant, measure-valued branching, interactive branching, state-dependent branching, two-dimensional process, absolute continuity, self-similarity, collision measure, collision local time, martingale problem, moment equations, segregation of ty |
| 3. | Subject | Subject classification | Primary 60K35; Secondary 60G57, 60J80 |
| 4. | Description | Abstract | A two-type infinite-measure-valued population in $R^2$ is constructed which undergoes diffusion and branching. The system is interactive in that the branching rate of each type is proportional to the local density of the other type. For a collision rate sufficiently small compared with the diffusion rate, the model is constructed as a pair of infinite-measure-valued processes which satisfy a martingale problem involving the collision local time of the solutions. The processes are shown to have densities at fixed times which live on disjoint sets and explode as they approach the interface of the two populations. In the long-term limit (in law), local extinction of one type is shown. Moreover the surviving population is uniform with random intensity. The process constructed is a rescaled limit of the corresponding $Z^2$-lattice model studied by Dawson and Perkins (1998) and resolves the large scale mass-time-space behavior of that model under critical scaling. This part of a trilogy extends results from the finite-measure-valued case, whereas uniqueness questions are again deferred to the third part. |
| 5. | Publisher | Organizing agency, location | |
| 6. | Contributor | Sponsor(s) | |
| 7. | Date | (YYYY-MM-DD) | 2002-03-15 |
| 8. | Type | Status & genre | Peer-reviewed Article |
| 8. | Type | Type | |
| 9. | Format | File format | |
| 10. | Identifier | Uniform Resource Identifier | http://ejp.ejpecp.org/article/view/114 |
| 10. | Identifier | Digital Object Identifier | 10.1214/EJP.v7-114 |
| 11. | Source | Journal/conference title; vol., no. (year) | Electronic Journal of Probability; Vol 7 |
| 12. | Language | English=en | en |
| 14. | Coverage | Geo-spatial location, chronological period, research sample (gender, age, etc.) | |
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