摘要Using temperature distribution as an external parameter to change symmetry and measuring frequency spectrum of acoustic resonances in aluminium blocks, we investigate the statistics and dynamics of energy levels in the chaotic billiards. To extract the resonances accurately and eliminate the influence of noise, a filter-diagonalization method for harmonic inversion is used to overcome low resolution of conventional fast Fourier transform method for low quantity factor resonance systems. We present an improved and feasible simulation method to study chaotic characteristic of quantum systems experimentally.
Abstract:Using temperature distribution as an external parameter to change symmetry and measuring frequency spectrum of acoustic resonances in aluminium blocks, we investigate the statistics and dynamics of energy levels in the chaotic billiards. To extract the resonances accurately and eliminate the influence of noise, a filter-diagonalization method for harmonic inversion is used to overcome low resolution of conventional fast Fourier transform method for low quantity factor resonance systems. We present an improved and feasible simulation method to study chaotic characteristic of quantum systems experimentally.
ZHANG Qin-Lei;YANG Guang-Can. Experimental Investigation of Energy Level Dynamics in luminium Blocks with Temperature Distribution[J]. 中国物理快报, 2008, 25(8): 2961-2964.
ZHANG Qin-Lei, YANG Guang-Can. Experimental Investigation of Energy Level Dynamics in luminium Blocks with Temperature Distribution. Chin. Phys. Lett., 2008, 25(8): 2961-2964.