排序方式: 共有21条查询结果,搜索用时 15 毫秒
1.
为了在腔磁力系统中实现可控的磁子诱导透明、磁力诱导透明以及快慢光传播,建立了一个混合腔磁力系统.该系统由一个含有YIG球的微波腔和在z方向对球施加一个均匀的偏置磁场组成,并用强泵浦场驱动磁子和弱探测场驱动微波腔.研究表明,通过调节腔与磁子之间的相互作用强度和微波腔与磁子的耗散比,可以增加磁子诱导透明(MIT)、磁力诱导透明(MMIT)的效果和提高快慢光传播的速度.该研究结果可为磁力诱导放大、量子光学操纵和量子信息存储以及灵敏光开关的研究提供参考. 相似文献
2.
在二维正方绝缘铁磁系统基础上建立一个磁振子-声子相互作用模型.利用格林函数方法研究磁振子-声子相互作用下的二维绝缘铁磁体的磁振子谱,计算布里渊区边界的主要对称点线上的磁振子色散曲线.发现在布里渊区边界区域磁振子谱的软化和磁振子谱线增宽最明显.比较纵向声子与横向声子对磁振子谱的软化与磁振子谱线增宽的影响,并讨论各项参数的变化对磁振子谱的软化与磁振子谱线增宽的影响. 相似文献
3.
成泰民 《沈阳化工学院学报》2006,20(2):140-143
在一维绝缘铁磁链系统基础上建立一个磁振子-声子相互作用模型.利用格林函数方法研究磁振子-声子相互作用下的一维绝缘铁磁链的磁振子谱, 计算布里渊区的磁振子色散曲线.发现在布里渊区边界区域磁振子谱的软化和磁振子谱线增宽最明显.讨论各项参数的变化对磁振子谱的软化与对磁振子谱线增宽的影响. 相似文献
4.
M. V. Klein Ran Liu D. Salamon S. L. Cooper W. C. Lee D. M. Ginsberg S. -W. Cheong 《Journal of Superconductivity》1994,7(2):429-433
Optical absorption at the insulating gap in the parent phase of cuprate superconductors shows a broad exciton-like peak near 1.7 eV, followed by a gradual decrease in absorption persisting 1 eV above the gap. By using ultraviolet laser lines to excite Raman spectra, we have found a Raman peak 0.2 eV below the first absorption peak in insulating cuprates. The Raman peak is much narrower than the absorption peak and hasA
2g
symmetry. We assign it to an exciton consisting of a hole transition from Cu
to a linear combination of Cud
xy
and nearest neighbor Op
orbitals. We have also studied the resonance Raman profile for two-magnon Raman scattering in the same samples. We find a sharp resonance feature at about 2.7 eV, and little Raman intensity for photon energies at the 1.7 eV absorption peak. The state created at the peak must therefore be an inappropriate intermediate state for the double spin-flip Raman process. 相似文献
5.
针对单箱多室箱梁在不同支承条件、腹板数量以及腹板厚度条件下的腹板剪力分配规律问题,提出了采用Midas/FEA对单箱多室箱梁进行数值模拟的方法,提取箱梁各道腹板的剪力值并进行对比分析,得到单箱多室箱梁各道腹板所分担剪力并非均分的结果.分析结果表明:当支承条件为双支座时,剪力增大系数最大;当腹板较少时,边腹板与中腹板剪力增大系数差别较小,边腹板的剪力增大系数随腹板数量增加而增大;腹板厚度变化对剪力分配影响不大. 相似文献
6.
AbstractWe show how non-reciprocity and topology are used to construct an optical one-way waveguide in the Voigt geometry. First, we present a traditional approach of the one-way waveguide of light using surface polaritons under a static magnetic field. Second, we explain a recent discovery of a topological approach using photonic crystals with the magneto-optical coupling. Third, we present a combination of the two approaches, toward a broadband one-way waveguide in the microwave range. 相似文献
7.
We show how non-reciprocity and topology are used to construct an optical one-way waveguide in the Voigt geometry. First, we present a traditional approach of the one-way waveguide of light using surface polaritons under a static magnetic field. Second, we explain a recent discovery of a topological approach using photonic crystals with the magneto-optical coupling. Third, we present a combination of the two approaches, toward a broadband one-way waveguide in the microwave range. 相似文献
8.
Wuming LIU+ Shaoyun FU Benlian ZHOU International Centre for Materials Physics 《材料科学技术学报》1993,9(2):148-152
Intrinsic localized modes in an order-parameter-preserving antiferromagnet are investigated withemploying the Dyson-Maleev transformation and the coherent-state ansatz. These modes which be-low the magnon frequency band correspond to a local large-angle, low-frequency precessional mo-tion of spins, quantum states of which are characterized by the indefiniteness of the number of rele-vant magnons. 相似文献
9.
Z. H. Chen W. Heiss I. Souma G. Springholz A. Murayama Y. Oka 《Journal of Superconductivity》2003,16(2):403-405
We report the magneto-optical studies on the EuTe epilayer grown by molecular beam epitaxy. Huge Zeeman shift of the excitonic photoluminescence is observed. The circular polarization property of the photoluminescence is investigated. An evident hysteresis behavior of the circular polarization for the excitonic photoluminescence is resolved, indicating the existence of the initial magnetization due to the formation of dense bound magnetic polaron. 相似文献
10.
Xi Chen Jaehyun Kim Qianru Jia Sean E. Sullivan Youming Xu Karalee Jarvis Jianshi Zhou Li Shi 《Advanced functional materials》2020,30(30)
The spin ladder compound (Sr,Ca,La)14Cu24O41 exhibits an incommensurate layered structure with strong antiferromagnetic coupling. Besides intriguing superconducting behavior, recent experiments on bulk Sr14Cu24O41 single crystals have revealed a remarkable magnon thermal conductivity, which is the largest above 100 K among all known quantum magnets. Although bulk (Sr,Ca,La)14Cu24O41 crystals have been synthesized and studied extensively, there have been few reports on the synthesis and magnon thermal transport investigation of their microstructures. Here, the synthesis and thermal transport properties of Sr14Cu24O41 microrods are reported. Electron microscopy studies indicate that these microrods synthesized by a coprecipitation method are single crystals grown preferentially along the ladder axis. Based on a four‐probe thermal transport measurement, the thermal conductivity of the microrods reveals appreciable magnon transport in the microstructures. According to a kinetic model analysis, magnon transport in the microrods is suppressed mainly by increased point defect scattering compared to the bulk crystals, whereas surface scattering is negligible for anisotropic 1D magnon transport along the ladder. Moreover, the thermal conductivity is enhanced after annealing as a result of reduced oxygen vacancies. These results help to build the foundation for future heterogeneous integration of magnetic microstructures in microscale devices for the transport of energy and quantum information. 相似文献