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1.
In this Letter, using Backlund transformation and the new variable separation approach, we find a new general solution to the (3 1)-dimensional Burgers equation. The form of the universal formula obtained from many (2 1)-dimensional systems is extended. Abundant localized coherent structures can be found by seclecting corresponding functions appropriately. 相似文献
2.
SHEN Shou-Feng ZHANG Jun YE Cai-Er PAN Zu-Liang 《理论物理通讯》2005,44(4):604-608
In this letter, abundant families of Jacobi elliptic function envelope solutions of the N-coupled nonlinear Schroedinger (NLS) system are obtained directly. When the modulus m → 1, those periodic solutions degenerate as the corresponding envelope soliton solutions, envelope shock wave solutions. Especially, for the 3-coupled NLS system, five types of Jacobi elliptic function envelope solutions are illustrated both analytically and graphically. Two types of those degenerate as envelope soliton solutions. 相似文献
3.
寻找高维可积模型是非线性科学中的重要课题.利用无穷维Virasoro对称子代数[σ(f1),σ(f2)]=σ(f′1f2-f′2f1)和向量场的延拓结构理论,能够得到各种高维模型.选取一些特殊的实现,可以给出具有无穷维Virasoro对称子代数意义下的高维微分可积模型.把该方法推广到微分-差分模型上,构造出具有弱多线性变量分离可解性的(3+1)维类Toda晶格.另外,该模型的一个约化方程为具有多线性变量分离可解性的(2+1)维特殊Toda晶格.连续运用对称约化方法可以得到此特殊Toda晶格的一个(1+1)维约化方程具有多线性变量分离可解性.因为得到的精确解里含有低维任意函数,从而可以构造出丰富地局域激发模式,如dromion解,lump解,环孤子解,呼吸子解,瞬子解,混沌斑图和分形斑图等等.
关键词:
Virasoro代数
微分-差分模型
变量分离
局域激发模式 相似文献
4.
Shou-Feng Wang 《Semigroup Forum》2013,86(1):221-223
Zhu (Semigroup Forum 84(3), 144–156, 2012) investigated some combinatorial properties of generalized Cayley graphs of semigroups. In Remark 3.8 of (Zhu, Semigroup Forum 84(3), 144–156, 2012), Zhu proposed the following question: It may be interesting to characterize semigroups S such that Cay(S,ω l )=Cay(S,ω r ). In this short note, we prove that for any regular semigroup S, Cay(S,ω l )=Cay(S,ω r ) if and only if S is a Clifford semigroup. 相似文献
5.
By using a Bäcklund transformation and the multi-linear variable separation approach, we find a new general
solution of a (2+1)-dimensional generalization of the nonlinear
Schrödinger system. The new “universal” formula is defined, and then, rich coherent structures can be found by selecting corresponding
functions appropriately. 相似文献
6.
SHENShou-Feng PANZu-Liang ZHANGJun 《理论物理通讯》2004,42(4):565-567
The variable separation approach method is very useful to solving (2 1)-dimensional integrable systems.But the (1 1)-dimensional and (3 1)-dimensional nonlinear systems are considered very little. In this letter, we extend this method to (1 1) dimensions by taking the Redekopp system as a simp!e example and (3 1)-dimensional Burgers system. The exact solutions are much general because they include some arbitrary functions and the form of the (3 1)-dimensional universal formula obtained from many (2 1)-dimensional systems is extended. 相似文献
7.
SHENShou-Feng PANZu-Liang ZHANGJun 《理论物理通讯》2004,42(1):49-50
In this Letter, using Ba^ecklund transformation and the new variable separation approach, we find a new general solution to the (3 1)-dimensional Burgers equation. The form of the universal formula obtained from many (2 1)-dimensional systems is extended. Abundant localized coherent structures can be found by seclecting corresponding functions appropriately. 相似文献
8.
Nonlinear Dynamics - All possible nonlocal versions of the derivative nonlinear Schrödinger equations are derived by the nonlocal reduction from the Chen–Lee–Liu equation, the... 相似文献
9.
SHEN Shou-Feng PAN Zu-Liang ZHANG Jun 《理论物理通讯》2004,42(12)
Lie group technique for solving differential-difference equations is applied to a new (2 1)-dimensional Toda-like lattice. An infinite dimensional Lie algebra and the corresponding commutation relations are obtained. 相似文献
10.
By using the variable separation approach, which is based on the corresponding Bäcklund
transformation, new exact solutions of a
(1+1)-dimensional nonlinear evolution equation are obtained.
Abundant new soliton motions of the potential field can be
found by selecting appropriate functions. 相似文献