Generalized solutions of the Riccati equation

In this paper, we consider a nonlinear differential equation of the first order of the Riccati hierarchy. The concept of a generalized solution for such an equation cannot be introduced within the framework of the classical theory of generalized functions because the product of generalized functions is not defined. To introduce the concept of a generalized solution, two approaches are considered. In the first approach, approximation by solutions of the Cauchy problem with complex initial conditions is used, and generalized solutions are defined as limits of approximating families in the sense of convergence in D′(¡). It is shown that there are two generalized solutions of the Cauchy problem. The type of solution depends on whether the poles of the approximating solution are located in the upper or lower half-plane. The second approach uses approximation with a system of equations. It is shown that there are many approximating systems, meanwhile, generalized solutions of the Cauchy problem depend on the choice of the approximating system.

1. Vladimirov V. S. Generalized Functions in Mathematical Physics. Moscow, Nauka Publ., 1979. 320 p. (in Russian).

2. Ince E. L. Ordinary Differential Equations. New York, Dover Publ., 1944. 558 p.

3. Gromak V. I., Lukashevich N. A. Analytical Properties of Solutions of the Painlevé Equations. Minsk, Universitetskoe Publ., 1990. 157 p. (in Russian).

4. Gromak V. I. Solutions of the third Painlevé equation. Differentsial'nyye uravneniya = Differential equations, 1982, vol. 18, no. 5, pp. 753–763 (in Russian).

5. Albeverio S., Gesztesy F., Høegh-Krohn R., Holden H. Models in Quantum Mechanics. Berlin etc., Springer-Verlag, 1988. 452 p. https://doi.org/10.1007/978-3-642-88201-2

6. Danilov V. G., Maslov V. P., Shelkovich V. M. Algebras of the singularities of singular solutions to first-order quasi-linear strictly hyperbolic systems. Theoretical and Mathematical Physics, 1998, vol. 114, no. 1, pp. 1–42. https://doi.org/10.1007/bf02557106

7. Antonevich A. B., Shahava T. G. Solutions of some differential equations in the distributions space. Tavriceskii vestnik informatiki i matematiki = Taurida Journal of Computer Science Theory and Mathematics, 2019, no. 3, pp. 23–36 (in Russian). s

8. Antonevich A. B., Kuzmina E. V. Solutions of the differential equation u′ + u = 0 in the distributions space. Vesnik Hrodzenskaha Dziarzhaunaha Universiteta Imia Ianki Kupaly. Seryia 2. Matematyka. Fizika. Infarmatyka, Vylichal’naia x Tekhnika i Kiravanne = Vesnik of Yanka Kupala State University of Grodno. Series 2. Mathematics. Physics. Informatics, Computer Technology and its Control, 2017, vol. 10, no. 22, pp. 56–66 (in Russian).

9. Kuzmina E. V. Generalized solutions of the differential first-order equation with the special rational coefficient. Problemy fiziki, matematiki i tekhniki = Problems of Physics, Mathematics and Technics, 2021, no. 1 (46), pp. 54–61 (in Russian).

10. Gritsuk Е. V., Kuzmina E. V. The study of the generalized hierarchy of the equation of Riссati on the Painlevé property. Vesnіk Brestskaga ўnіversіteta. Seryia 4. Fіzіka. Matematyka = Vesnik of Brest University. Series 4. Physics. Mathematics, 2017, no. 2, pp. 64–72 (in Russian).