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Rational and Semirational Solutions of the Nonlocal Davey- Stewartson Equations

时间 Datetime

2018-04-16 13:00 — 14:00

地点 Venue

Middle Lecture Room

报告人 Speaker

贺劲松

单位 Affiliation

宁波大学

邀请人 Host

虞国富/陈春丽

Since party-time (PT) symmetry in quantum mechanics has been introduced at 1998, and later has been observed in several nonlinear optical experiments. There are many works to study PT symmetric integrable partial differential equations. In this talk, the partially party-time PT symmetric nonlocal Davey-Stewartson (DS) equations with respect to x is called x-nonlocal DS equations, while a fully PT symmetric nonlocal DSII equation is called nonlocal DSII equation. Several kinds of solutions, namely, breather, rational, and semi-rational solutions for these nonlocal DS equations are derived by employing the bilinear method.Since party-time (PT) symmetry in quantum mechanics has been introduced at 1998, and later has been observed in several nonlinear optical experiments. There are many works to study PT symmetric integrable partial differential equations. In this talk, the partially party-time PT symmetric nonlocal Davey-Stewartson (DS) equations with respect to x is called x-nonlocal DS equations, while a fully PT symmetric nonlocal DSII equation is called nonlocal DSII equation. Several kinds of solutions, namely, breather, rational, and semi-rational solutions for these nonlocal DS equations are derived by employing the bilinear method.Since party-time (PT) symmetry in quantum mechanics has been introduced at 1998, and later has been observed in several nonlinear optical experiments. There are many works to study PT symmetric integrable partial differential equations. In this talk, the partially party-time PT symmetric nonlocal Davey-Stewartson (DS) equations with respect to x is called x-nonlocal DS equations, while a fully PT symmetric nonlocal DSII equation is called nonlocal DSII equation. Several kinds of solutions, namely, breather, rational, and semi-rational solutions for these nonlocal DS equations are derived by employing the bilinear method.