著者
Tomiya Mitsuyoshi Sakamoto Shoichi Inoue Hiroyuki YOSHINAGA Naotaka
出版者
一般社団法人日本物理学会
雑誌
Progress of theoretical physics. Supplement (ISSN:03759687)
巻号頁・発行日
no.157, pp.156-159, 2005-04-30

We numerically study quantum mechanics of one-dimensional (1D) time-independent system whose energy level statistics obeys the Gaussian orthogonal ensemble. 1D conservative systems are known to be integrable. However, at least numerically, it is also shown that we can construct the potential for the Schrodinger equation that reproduces a finite number of given energy levels of chaotic regime, e.g., the random matrix theory. In this work a potential is constructed numerically by the standard gradient method. The more energy levels of chaotic regime we take, the more complicated and finer the ripples of the potential become. Then the potential has fractal structure at high energy limit and its fractal dimension is determined to be d=1.7.