期刊
PHYSICAL REVIEW E
卷 82, 期 3, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevE.82.036402
关键词
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资金
- NSF [PHY-0812956, PHY-0813153, PHY-0715227, OTKA-PD-75113, OTKA-K-77653, MTA-NSF/102]
- Janos Bolyai Research Foundation of the Hungarian Academy of Sciences
- Direct For Mathematical & Physical Scien
- Division Of Physics [0812956] Funding Source: National Science Foundation
Using a combined analytical/molecular dynamics approach, we study the current fluctuation spectra and longitudinal and transverse collective mode dispersions of the classical two-dimensional (point) dipole system (2DDS) characterized by the phi(D)(r) = mu(2)/r(3) repulsive interaction potential; mu is the electric dipole strength. The interest in the 2DDS is twofold. First, the quasi-long-range 1/r(3) interaction makes the system a unique classical many-body system, with a remarkable collective mode behavior. Second, the system may be a good model for a closely spaced semiconductor electron-hole bilayer, a system that is in the forefront of current experimental interest. The longitudinal collective excitations, which are of primary interest for the liquid phase, are acoustic at long wavelengths. At higher wave numbers and for sufficiently high coupling strength, we observe the formation of a deep minimum in the dispersion curve preceded by a sharp maximum; this is identical to what has been observed in the dispersion of the zero-temperature bosonic dipole system, which in turn emulates so-called roton-maxon excitation spectrum of the superfluid He-4. The analysis we present gives an insight into the emergence of this apparently universal structure, governed by strong correlations. We study both the liquid and the crystalline solid state. We also observe the excitation of combination frequencies, resembling the roton-roton, roton-maxon, etc. structures in He-4.
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