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Using a novel transformation involving the Jacobi Last Multiplier (JLM) we derive an old integrability criterion due to Chiellini for the Li\'enard equation. By combining the Chiellini condition for integrability and Jacobi's Last…

Exactly Solvable and Integrable Systems · Physics 2016-08-09 A. Ghose Choudhury , Partha Guha

We present a method devised by Jacobi to derive Lagrangians of any second-order differential equation: it consists in finding a Jacobi Last Multiplier. We illustrate the easiness and the power of Jacobi's method by applying it to several…

Mathematical Physics · Physics 2008-09-28 M. C. Nucci , K. M. Tamizhmani

Using the Chiellini condition for integrability we derive explicit solutions for a generalized system of Riccati equations $\ddot{x}+\alpha x^{2n+1}\dot{x}+x^{4n+3}=0$ by reduction to the first-order Abel equation assuming the parameter…

Exactly Solvable and Integrable Systems · Physics 2016-08-09 A Ghose-Choudhury , Partha Guha

A class of exact solutions is obtained for the Li\'{e}nard type ordinary non-linear differential equation. As a first step in our study the second order Li\'{e}nard type equation is transformed into a second kind Abel type first order…

Mathematical Physics · Physics 2014-11-26 Tiberiu Harko , Francisco S. N. Lobo , M. K. Mak

In these notes, using the method of differential constraints, novel exact kink-like solutions are obtained for certain classes of complex Ginzburg--Landau equations with cubic-quintic nonlinearity. The foregoing solutions are presented in…

Exactly Solvable and Integrable Systems · Physics 2023-04-17 Vassil M. Vassilev

The closed Dyson-Schwinger equation for the 2-point function of the noncommutative $\lambda \phi^4_2$-model is rearranged into the boundary value problem for a sectionally holomorphic function in two variables. We prove an exact formula for…

Mathematical Physics · Physics 2020-01-08 Erik Panzer , Raimar Wulkenhaar

We study solutions of a transcendental equation for the complex chemical potential at which a random-matrix QCD model can undergo a phase transition at zero mass. An explicit solution is obtained in terms of the Lambert W function. We also…

High Energy Physics - Lattice · Physics 2014-10-29 Ken Roberts , S. R. Valluri

It is shown that the quasilinearization method (QLM) sums the WKB series. The method approaches solution of the Riccati equation (obtained by casting the Schr\"{o}dinger equation in a nonlinear form) by approximating the nonlinear terms by…

Quantum Physics · Physics 2007-05-23 Victor Mandelzweig

In this work we study global boundedness and exponential integrability of weak solutions to degenerate $p$-Poisson equations using an iterative method of De Giorgi type. Given a symmetric, non-negative definite matrix valued function $Q$…

Analysis of PDEs · Mathematics 2023-09-11 Sullivan Francis MacDonald , Scott Rodney

We derive solvability conditions and closed-form solution for the Weber type integral equation, related to the familiar Weber-Orr integral transforms and the old Weber-Titchmarsh problem (posed in Proc. Lond. Math. Soc. 22 (2) (1924),…

Classical Analysis and ODEs · Mathematics 2017-01-17 Semyon Yakubovich

Recently, we have studied a delay differential equation which has a coefficient that is a linear function of time. The equation has shown the oscillatory transient dynamics appear and disappear as the delay is increased between zero to…

Adaptation and Self-Organizing Systems · Physics 2023-07-11 Kenta Ohira , Toru Ohira

On the base of a 1D Shr\"{o}dinger equation the non-linear first-order differential equation (Ricatti type) for a quantum wave impedance function was derived. The advantages of this approach were discussed and demonstrated for a case of a…

Quantum Physics · Physics 2020-10-13 O. I. Hryhorchak

We discuss a new type of delay differential equation that exhibits resonating transient oscillations. The power spectrum peak of the dynamical trajectory reaches its maximum height when the delay is suitably tuned. Furthermore, our analysis…

Adaptation and Self-Organizing Systems · Physics 2023-12-11 Kenta Ohira , Toru Ohira

We introduce an extended Kepler-Coulomb quantum model in spherical coordinates. The Schr\"{o}dinger equation of this Hamiltonian is solved in these coordinates and it is shown that the wave functions of the system can be expressed in terms…

Mathematical Physics · Physics 2018-04-03 Md Fazlul Hoque , Ian Marquette , Sarah Post , Yao-Zhong Zhang

There are discussed the exact solution of the time--dependent Schr\"{o}dinger equation for a damped quantum oscillator subject to a periodical frequency delta--kicks describing squeezed states which are expressed in terms of Chebyshev…

Quantum Physics · Physics 2016-09-08 O. V. Man'ko

Following the previous work [1], we investigate the impact of damping on the oscillation of smooth solutions to some kind of quasilinear wave equations with Robin and Dirichlet boundary condition. By using generalized Riccati transformation…

Analysis of PDEs · Mathematics 2020-07-07 Ying Sui , Huimin Yu

We study a family of Li\'enard--type equations. Such equations are used for the description of various processes in physics, mechanics and biology and also appear as traveling--wave reductions of some nonlinear partial differential…

Exactly Solvable and Integrable Systems · Physics 2017-01-31 Nikolai A. Kudryashov , Dmitry I. Sinelshchikov

We investigate the quantitative unique continuation properties of solutions to second-order elliptic equations with lower-order terms. In particular, we establish quantitative forms of the strong unique continuation property for solutions…

Analysis of PDEs · Mathematics 2025-11-11 Blair Davey

Fractionally-quadratic transformations which reduce any two-dimensional quadratic system to the special Lienard equation are introduced. Existence criteria of cycles are obtained.

Dynamical Systems · Mathematics 2015-06-26 G. Leonov

We integrate with hyperelliptic functions a two-particle Hamiltonian with quartic potential and additionnal linear and nonpolynomial terms in the Liouville integrable cases 1:6:1 and 1:6:8.

Exactly Solvable and Integrable Systems · Physics 2017-10-16 C. Verhoeven , M. Musette , R. Conte
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