Reducibility of 1-D Quantum Harmonic Oscillator with Decaying Conditions on the Derivative of Perturbation Potentials

Abstract

We prove the reducibility of 1-D quantum harmonic oscillators in R perturbed by a quasi-periodic in time potential V(x,ω t) under the following conditions, namely there is a C>0 such that equation* |V(x,θ)| C,|x∂xV(x,θ)| C,∀~(x,θ)∈ R× Tσn. equation* The corresponding perturbation matrix (Pij(θ)) is proved to satisfy (1+|i-j|)| Pij(θ)| C and ij|Pi+1j+1(θ)-Pij(θ)| C for any θ∈ Tσn and i,j≥ 1. A new reducibility theorem is set up under this kind of decay in the perturbation matrix element Pij(θ) as well as the discrete difference matrix element Pi+1j+1(θ)-Pij(θ). For the proof the novelty is that we use the decay in the discrete difference matrix element to control the measure estimates for the thrown parameter sets.