- 更多网络例句与磁振子相关的网络例句 [注:此内容来源于网络,仅供参考]
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It is concluded that at the boundary of BriUouin Zone there is a strong broadening in the magnon linewidth and softening.
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。
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Two bulk magnons are observed. One is the thermally excited magnon and another is the uniform magne-tostatic mode.
此实验观测到了两种体波性质的磁振子,一个是热激发的自旋波,另一个被确认为静磁模。
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K.The influences of longitudinal phonon and transverse phonon on the magnon damping are compared,and the influences of all relevant parameters on magnon damping are also discussed.
比较了纵向声子与横向声子对磁振子衰减的影响,也讨论了各项参数的变化对磁振子衰减的影响。
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The influences of longitudinal phonon and transverse phonon on the softening and broadening in the magnon linewidth are compared, and the influences of the parameters are also illustrated.
比较了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,也讨论了各项参数,以及温度的变化对磁振子谱的软化与磁振子谱线增宽的影响。
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By using Matsubara Green function theory, we have studied the magonon spectrum, and calculated the magnon dispersion curve on the Aline in the Brillouin Zone for different parameters and transformation of temperature in the system.
利用格林函数方法研究了磁振子-声子相互作用下的三角绝缘铁磁体的磁振子谱,计算了布里渊区的A线上的磁振子色散曲线。
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Analogy to boson such as phonon and photon, the elementary excitation of spin wave is magnon.
类似于光子,声子等玻色子,我们称自旋波的元激发为磁振子。
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By using Matsubara Green function theory, we have studied the magonon spectrum and calculated the magnon dispersion curve on the △ line in the Brillouin Zone for different parameters in the system.
利用格林函数方法研究了磁振子-声子相互作用下的二维绝缘铁磁体的磁振子谱,计算了布里渊区的△线上的磁振子色散曲线。
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The expression -ImΣ~*(1=/(2τ) is available to take as a criterion for the magnon lifetime.
根据关系式-ImΣ*(1)=/(2τ)可以对磁振子寿命进行判断。
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Through studying the dynamical and quantum fluctuation properties of the spin waves, in analogy with the modulation of quantum noise in light and lattice waves, and lattice waves, we calculate out the average value of spin fluctuation and get the condition of achieving the magnon squeezing states.
通过研究自旋波的动力学和量子涨落的性质,类似于光波和格波的量子噪声的调制,计算出自旋涨落的平均值,从而得到了产生磁了振子压缩态的条件。
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By Matsubara-Green function method,the magnon damping under such on interaction is studied,with the magnon damping calculated on the main symmetric point/line in Brillouin zone for different parameters in the system.
利用格林函数方法研究了磁振子-声子相互作用下的二维绝缘铁磁体的磁振子衰减,计算了布里渊区的主要对称点线上的-ImΣ*(1)。
- 更多网络解释与磁振子相关的网络解释 [注:此内容来源于网络,仅供参考]
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magnon:磁振子
得莫克里托夫在研究中使用的是体积很小、寿命很短的磁能量包,这些磁振子(magnon)是钇铁石榴石薄膜受到微波照射时产生的. 磁振子的质量比原子小得多,因此可以在高得多的温度下形成玻色-爱因斯坦凝聚态.
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magnon:磁振子= 磁波子
magnifier 放大鏡 | magnon 磁振子= 磁波子 | majority carrier 多數載子 =多[數載流]子
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thermal magnon:热磁振子
thermal magnetic conditioning 熱消磁 | thermal magnon 热磁振子 | thermal man (耐燃试验用人体模型)热人
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magnon emission:磁振子发射
magnolia warbler 木兰林莺 | magnon emission 磁振子发射 | Magnuminium alloy 马格努镁合金,镁基合金,锰铝镁基合金
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two magnon scattering:二磁振子散射
two dimension detector arrays 面型检光元件 | two magnon scattering 二磁振子散射 | two mirror anastigmat 双[反射]镜消像散镜
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magnus effect:马格努斯效应
magnon 磁振子 | magnus effect 马格努斯效应 | main quantum number 挚子数
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magnus effect:马格奴士效应
磁振子间散射 magnon-magnon scattering | 马格奴士效应 Magnus effect | 马格奴士力 Magnus force
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quantized spin wave:磁振子
quantized signal 量子化信号 | quantized spin wave 磁振子 | quantized structure 量子化结构
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Hertzian oscillator:赫兹振子
电四极辐射 electric quadrupole radiation | 赫兹振子 Hertzian oscillator | 磁偶极辐射 magnetic dipole radiation
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Magnetically Insulates Line Oscillator:磁绝缘线振荡器
广义振子强度密度:the general oscillator strength density | 磁绝缘线振荡器:Magnetically Insulates Line Oscillator | 雪崩二极管振荡器:IMPATT diode oscillator