We study quantum motion around a classical heteroclinic point of a single trapped ion interacting with a strong laser standing wave.We construct a set of exact coherent states of the quantum system and from the exact solutions reveal that quantum signatures of chaos can be induced by the adiabatic interaction between the trapped ion and the laser standing wave,where the quantum expectation values of position and momentum correspond to the classically chaotic orbit.The chaotic region on the phase space is illustrated.The energy crossing and quantum resonance in time evolution and the exponentially increased Heisenberg uncertainty are found.The results suggest a theoretical scheme for controlling the unstable regular and chaotic motions. We study quantum motion around a classical heteroclinic point of a single trapped ion interacting with a strong laser standing wave. We construct a set of exact coherent states of the quantum system and from the exact solutions reveal that quantum signatures of chaos can be induced by the adiabatic interaction between the trapped ion and the laser standing wave, where the quantum expectation values ​​of position and momentum correspond to the classically chaotic orbit. The chaotic region on the phase space is illustrated. energy crossing and quantum resonance in time evolution and the exponentially increased Heisenberg uncertainty are found. The results suggest a theoretical scheme for controlling the unstable regular and chaotic motions.