The equation of electromagnetic wave propagation through cold collisionless plasma can be reduced to the modified Kortweg-de Vries (mKdV) equation. Using a new technique, whose keys are the trial solution in terms o...The equation of electromagnetic wave propagation through cold collisionless plasma can be reduced to the modified Kortweg-de Vries (mKdV) equation. Using a new technique, whose keys are the trial solution in terms of the exponential function and the ideas of the like-terms' balance, some groups of accurate analytical solutions for this mKdV equation, such as solitary wave solutions, can be obtained. It is successfully shown that this method may be still valid for solving other nonlinear plasma equations.展开更多
This paper obtains some solutions of the 5th-order mKdV equation by using the exponential-fraction trial function method, such as solitary wave solutions, shock wave solutions and the hopping wave solutions. It succes...This paper obtains some solutions of the 5th-order mKdV equation by using the exponential-fraction trial function method, such as solitary wave solutions, shock wave solutions and the hopping wave solutions. It successfully shows that this method may be valid for solving other nonlinear partial differential equations.展开更多
The travelling solutions of the Burgers equation may be used as the seed solutions. According to the fraction-type deforming relation between the Burgers equation and the plasma motion equation, some travelling soluti...The travelling solutions of the Burgers equation may be used as the seed solutions. According to the fraction-type deforming relation between the Burgers equation and the plasma motion equation, some travelling solutions of the plasma motion equation are achieved with this seed solutions as discussed in this paper.展开更多
文摘The equation of electromagnetic wave propagation through cold collisionless plasma can be reduced to the modified Kortweg-de Vries (mKdV) equation. Using a new technique, whose keys are the trial solution in terms of the exponential function and the ideas of the like-terms' balance, some groups of accurate analytical solutions for this mKdV equation, such as solitary wave solutions, can be obtained. It is successfully shown that this method may be still valid for solving other nonlinear plasma equations.
基金Project supported by the National Natural Science Foundation of China (Grant Nos 10575082 and 10247008).
文摘This paper obtains some solutions of the 5th-order mKdV equation by using the exponential-fraction trial function method, such as solitary wave solutions, shock wave solutions and the hopping wave solutions. It successfully shows that this method may be valid for solving other nonlinear partial differential equations.
文摘The travelling solutions of the Burgers equation may be used as the seed solutions. According to the fraction-type deforming relation between the Burgers equation and the plasma motion equation, some travelling solutions of the plasma motion equation are achieved with this seed solutions as discussed in this paper.