In this paper, we examine classicalndash;quantum correspondence in a system with strong vibrationndash;rotation interaction. We study the quantum mechanics of a two degree of freedom rigid bender Hamiltonian, previously considered in the context of classical mechanics by Ezra lsqb;Chem. Phys. Lett.127, 492 (1986)rsqb; and by Frederick and McClelland lsqb;J. Chem. Phys.84, 4347 (1986)rsqb;. Eigenfunctions and eigenvalues of this system are calculated by matrix diagonalization in a harmonic oscillatorndash;rigid rotor basis. The quantum mechanics are compared with the classical mechanics by visualizing the quantum eigenstates on a surface of section, defined in terms of the coherent states of the rotor and oscillator. We find clear connections between eigenstate structure on the quantum surface of section and features of the classical phase space, such as nonlinear resonance, period doubling, and chaos.
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