This paper discusses a class of nonlinear SchrSdinger equations with combined power-type nonlinearities and harmonic potential. By constructing a variational problem the potential well method is applied. The structure...This paper discusses a class of nonlinear SchrSdinger equations with combined power-type nonlinearities and harmonic potential. By constructing a variational problem the potential well method is applied. The structure of the potential well and the properties of the depth function are given. The invariance of some sets for the problem is shown. It is proven that, if the initial data are in the potential well or out of it, the solutions will lie in the potential well or lie out of it, respectively. By the convexity method, the sharp condition of the global well-posedness is given.展开更多
Finite time blow up of the solutions to Boussinesq equation with linear restoring force and combined power nonlinearities is studied. Sufficient conditions on the initial data for nonexistence of global solutions are ...Finite time blow up of the solutions to Boussinesq equation with linear restoring force and combined power nonlinearities is studied. Sufficient conditions on the initial data for nonexistence of global solutions are derived. The results are valid for initial data with arbitrary high positive energy. The proofs are based on the concave method and new sign preserving functionals.展开更多
This paper deals with blowing up of solutions to the Cauchy problem for a class of general- ized Zakharov system with combined power-type nonlinearities in two and three space dimensions. On the one hand, for co = +o...This paper deals with blowing up of solutions to the Cauchy problem for a class of general- ized Zakharov system with combined power-type nonlinearities in two and three space dimensions. On the one hand, for co = +oo we obtain two finite time blow-up results of solutions to the aforementioned 4 ≤ p 〈 N+2/N-2 4 system. One is obtained under the condition a ≥ 0 and 1 + 4/N or a 〈 0 and 1 〈 p 〈 1 + (N = 2,3); the other is established under the condition N = 3, 1 〈 p 〈 N=2/N-2 and α(p - 3) 〉 0. On the other hand, for co 〈 +∞ and α(p - 3) 〉 0, we prove a blow-up result for solutions with negative energy to the Zakharov system under study.展开更多
The iterative equation is an equality with an unknown function and its iterates,most of which found from references are a linear combination of those iterates.In this paper,we work on an iterative equation with multip...The iterative equation is an equality with an unknown function and its iterates,most of which found from references are a linear combination of those iterates.In this paper,we work on an iterative equation with multiplication of iterates of the unknown function.First,we use an exponential conjugation to reduce the equation on R+to the form of the linear combination on R,but those known results on the linear combination were obtained on a compact interval or a neighborhood near a fixed point.We use the Banach contraction principle to give the existence,uniqueness and continuous dependence of continuous solutions on R+that are Lipschitzian on their ranges,and construct its continuous solutions on R_(+)sewing piece by piece.We technically extend our results on R_(+)to R_(-)and show that none of the pairs of solutions obtained on R+and R_(-)can be combined at the origin to get a continuous solution of the equation on the whole R,but can extend those given on R+to obtain continuous solutions on the whole R.展开更多
基金Project supported by the National Natural Science Foundation of China (Nos. 10871055 and 10926149)the Natural Science Foundation of Heilongjiang Province (Nos. A200702 and A200810)+1 种基金the Science and Technology Foundation of Education Offce of Heilongjiang Province (No. 11541276)the Foundational Science Foundation of Harbin Engineering University
文摘This paper discusses a class of nonlinear SchrSdinger equations with combined power-type nonlinearities and harmonic potential. By constructing a variational problem the potential well method is applied. The structure of the potential well and the properties of the depth function are given. The invariance of some sets for the problem is shown. It is proven that, if the initial data are in the potential well or out of it, the solutions will lie in the potential well or lie out of it, respectively. By the convexity method, the sharp condition of the global well-posedness is given.
基金partially supported by Grant No.DFNI I-02/9 of the Bulgarian Science Fund
文摘Finite time blow up of the solutions to Boussinesq equation with linear restoring force and combined power nonlinearities is studied. Sufficient conditions on the initial data for nonexistence of global solutions are derived. The results are valid for initial data with arbitrary high positive energy. The proofs are based on the concave method and new sign preserving functionals.
基金supported by National Natural Science Foundation of China (Grant Nos. 11171241, 10801102,11071177)Sichuan Youth Science and Technology Foundation (Grant No. 07ZQ026-009)China Postdoctoral Science Foundation Funded Project
文摘This paper deals with blowing up of solutions to the Cauchy problem for a class of general- ized Zakharov system with combined power-type nonlinearities in two and three space dimensions. On the one hand, for co = +oo we obtain two finite time blow-up results of solutions to the aforementioned 4 ≤ p 〈 N+2/N-2 4 system. One is obtained under the condition a ≥ 0 and 1 + 4/N or a 〈 0 and 1 〈 p 〈 1 + (N = 2,3); the other is established under the condition N = 3, 1 〈 p 〈 N=2/N-2 and α(p - 3) 〉 0. On the other hand, for co 〈 +∞ and α(p - 3) 〉 0, we prove a blow-up result for solutions with negative energy to the Zakharov system under study.
基金supported by National Institute of Technology Karnataka Surathkal through Senior Research Fellowship and Indian Statistical Institute Bangalore in the form of a Visiting Scientist position through the Jagadish Chandra Bose Fellowship of Professor Badekkila Venkataramana Rajarama Bhatsupported by Science and Engineering Research Board,Department of Science and Technology,Government of India(Grant No.ECR/2017/000765)supported by National Natural Science Foundation of China(Grant Nos.11831012,12171336 and 11821001).
文摘The iterative equation is an equality with an unknown function and its iterates,most of which found from references are a linear combination of those iterates.In this paper,we work on an iterative equation with multiplication of iterates of the unknown function.First,we use an exponential conjugation to reduce the equation on R+to the form of the linear combination on R,but those known results on the linear combination were obtained on a compact interval or a neighborhood near a fixed point.We use the Banach contraction principle to give the existence,uniqueness and continuous dependence of continuous solutions on R+that are Lipschitzian on their ranges,and construct its continuous solutions on R_(+)sewing piece by piece.We technically extend our results on R_(+)to R_(-)and show that none of the pairs of solutions obtained on R+and R_(-)can be combined at the origin to get a continuous solution of the equation on the whole R,but can extend those given on R+to obtain continuous solutions on the whole R.