Nowadays study of chaotic quantum billiards because of their relation to Nano technology. In this paper distribution of zeros of wave function on the boundary of two circular and stadium billiards are investigated. By calculating gyration radius for these points chaotic and non-chaotic states are distinguished.
M. Barezi, , H. Mosadegh, and B. Mirza, (2019). Recognizing chaotic states in stadium billiard by calculating gyration radius. Iranian Journal of Physics Research, 6(4), 275-281.
MLA
M. Barezi, , , H. Mosadegh, , and B. Mirza, . "Recognizing chaotic states in stadium billiard by calculating gyration radius", Iranian Journal of Physics Research, 6, 4, 2019, 275-281.
HARVARD
M. Barezi , H. Mosadegh , B. Mirza (2019). 'Recognizing chaotic states in stadium billiard by calculating gyration radius', Iranian Journal of Physics Research, 6(4), pp. 275-281.
CHICAGO
M. Barezi, H. Mosadegh and B. Mirza, "Recognizing chaotic states in stadium billiard by calculating gyration radius," Iranian Journal of Physics Research, 6 4 (2019): 275-281,
VANCOUVER
M. Barezi , H. Mosadegh , B. Mirza Recognizing chaotic states in stadium billiard by calculating gyration radius. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 6(4): 275-281.
