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We study the integrability of a two-dimensional Hamiltonian system with a gyroscopic term and a non-homogeneous potential composed of two homogeneous components of different degrees. The model describes the motion of a particle in a plane…

Exactly Solvable and Integrable Systems · Physics 2026-03-24 Wojciech Szumiński , Andrzej J. Maciejewski

We review, restate, and prove a result due to Kaushal and Korsch [Phys. Lett. A 276, 47 (2000)] on the complete integrability of two-dimensional Hamiltonian systems whose Hamiltonian satisfies a set of four linear second order partial…

Mathematical Physics · Physics 2014-05-20 Ali Mostafazadeh

We consider the geometry of quantum states associated with different classes of random matrix Hamiltonians, in particular ensembles that show integrability to chaotic transition in terms of the nearest neighbour energy level spacing…

Quantum Physics · Physics 2025-09-03 Ankit Gill , Keun-Young Kim , Kunal Pal , Kuntal Pal

We consider the classical superintegrable Hamiltonian system given by $H=T+U={p^2}/{2(1+\lambda q^2)}+{{\omega}^2 q^2}/{2(1+\lambda q^2)}$, where U is known to be the "intrinsic" oscillator potential on the Darboux spaces of nonconstant…

Mathematical Physics · Physics 2011-06-14 Angel Ballesteros , Alberto Enciso , Francisco J. Herranz , Orlando Ragnisco , Danilo Riglioni

We formulate a set of conditions under which dynamics of a time-dependent quantum Hamiltonian are integrable. The main requirement is the existence of a nonabelian gauge field with zero curvature in the space of system parameters. Known…

Quantum Physics · Physics 2018-05-16 Nikolai A. Sinitsyn , Emil A. Yuzbashyan , Vladimir Y. Chernyak , Aniket Patra , Chen Sun

We consider a formal (approximate) integral of motion in Hamiltonians of the form $H=\frac{1}{2}(X^2+Y^2+\omega_1^2x^2+\omega_2^2y^2)+\epsilon(\eta xy^2+\alpha x^3+\beta x^2y+\gamma y^3)$ generalizing previous cases with $\beta=\gamma=0$.…

Chaotic Dynamics · Physics 2026-01-22 George Contopoulos , Athanasios C. Tzemos , Foivos Zanias

Integrability is a cornerstone of classical mechanics, where it has a precise meaning. Extending this notion to quantum systems, however, remains subtle and unresolved. In particular, deciding whether a quantum Hamiltonian - viewed simply…

Statistical Mechanics · Physics 2026-02-10 Feng He , Arthur Hutsalyuk , Giuseppe Mussardo , Andrea Stampiggi

We summarize recent work showing that the $1/r^2$ model of interacting particles in 1-dimension is a universal Hamiltonian for quantum chaotic systems. The problem is analyzed in terms of random matrices and of the evolution of their…

Condensed Matter · Physics 2025-07-04 B. Sriram Shastry

The main purpose of this paper is to introduce a new class of Hamiltonian scattering systems of the cone potential type that can be integrated via the asymptotic velocity. For a large subclass, the asymptotic data of the trajectories define…

Exactly Solvable and Integrable Systems · Physics 2012-07-13 Gianluca Gorni , Gaetano Zampieri

We study periodically driven closed quantum systems where two parameters of the system Hamiltonian are driven with frequencies $\omega_1$ and $\omega_2=r \omega_1$. We show that such drives may be used to tune towards dynamics induced…

Strongly Correlated Electrons · Physics 2016-08-24 Satyaki Kar , Bhaskar Mukherjee , K. Sengupta

An infinite family of quasi-maximally superintegrable Hamiltonians with a common set of (2N-3) integrals of the motion is introduced. The integrability properties of all these Hamiltonians are shown to be a consequence of a hidden…

Mathematical Physics · Physics 2008-04-24 Orlando Ragnisco , Angel Ballesteros , Francisco J. Herranz , Fabio Musso

The constant curvature analogue on the two-dimensional sphere and the hyperbolic space of the integrable H\'enon-Heiles Hamiltonian $\mathcal{H}$ given by $$ \mathcal{H}=\dfrac{1}{2}(p_{1}^{2}+p_{2}^{2})+ \Omega \left(q_{1}^{2}+ 4…

Exactly Solvable and Integrable Systems · Physics 2015-04-15 Angel Ballesteros , Alfonso Blasco , Francisco J. Herranz

It is known that, if a point in $R^n$ is driven by a bounded below potential $V$, whose gradient is always in a closed convex cone which contains no lines, then the velocity has a finite limit as time goes to $+\infty$. The components of…

Exactly Solvable and Integrable Systems · Physics 2012-04-10 Gianluca Gorni , Gaetano Zampieri

We prove that any $n$-dimensional Hamiltonian operator with pure point spectrum is completely integrable via self-adjoint first integrals. Furthermore, we establish that given any closed set $\Sigma\subset\mathbb R$ there exists an…

Mathematical Physics · Physics 2007-05-23 A. Enciso , D. Peralta-Salas

A family of classical integrable systems defined on a deformation of the two-dimensional sphere, hyperbolic and (anti-)de Sitter spaces is constructed through Hamiltonians defined on the non-standard quantum deformation of a sl(2) Poisson…

Mathematical Physics · Physics 2008-11-26 Angel Ballesteros , Francisco J. Herranz , Orlando Ragnisco

We provide geometric quantization of a completely integrable Hamiltonian system in the action-angle variables around an invariant torus with respect to polarization spanned by almost-Hamiltonian vector fields of angle variables. The…

Quantum Physics · Physics 2015-06-26 G. Giachetta , L. Mangiarotti , G. Sardanashvily

The $N$-dimensional quantum Hamiltonian $ \hat{H} = -\frac{\hbar^2 {|\mathbf{q} } | }{2(\eta +| {\mathbf{q}} |)} {\mathbf{\nabla}}^2 - \frac{k}{\eta + |{\mathbf{q}} |} $ is shown to be exactly solvable for any real positive value of the…

Mathematical Physics · Physics 2015-06-17 Angel Ballesteros , Alberto Enciso , Francisco J. Herranz , Orlando Ragnisco , Danilo Riglioni

We present a new exactly solvable (classical and quantum) model that can be interpreted as the generalization to the two-dimensional sphere and to the hyperbolic space of the two-dimensional anisotropic oscillator with any pair of…

Quantum Physics · Physics 2016-08-09 Angel Ballesteros , Francisco J. Herranz , Sengul Kuru , Javier Negro

We investigate the connection between energy level crossings in integrable systems and their integrability, i.e. the existence of a set of non-trivial integrals of motion. In particular, we consider a general quantum Hamiltonian linear in…

Statistical Mechanics · Physics 2009-01-14 H. K. Owusu , K. Wagh , E. A. Yuzbashyan

Integrals of motion of a Hamiltonian system need not be commutative. The classical Mishchenko-Fomenko theorem enables one to quantize a noncommutative completely integrable Hamiltonian system around its invariant submanifold as an abelian…

Quantum Physics · Physics 2015-06-26 G. Giachetta , L. Mangiarotti , G. Sardanashvily
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