玻尔半径
- 网络Bohr radius
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Ge的激子玻尔半径远大于硅,表明其具有更为显著的量子尺寸效应。
The exciton Bohr radius of Ge is far greater than that of silicon , indicating that obvious quantum size effect will appear in Ge .
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InAs是Ⅲ-Ⅴ族材料中一种重要的窄直接带隙半导体,具有高电子迁移率,低有效质量以及很大的激子玻尔半径。
As one of the III-V group materials , InAs ( indium arsenide ) is an important narrow direct band semiconductor . It has high electron mobility , low electron effective mass and a large exciton Bohr radius .
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如果玻尔半径包括了氢原子的约化质量,就有需要加入一个复杂的修正值来使方程适用于其他原子。
If the definition of Bohr radius included the reduced mass of hydrogen , it would be necessary to include a more complex adjustment in equations relating to other atoms .
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电子的玻尔半径是一组三个互相关联的长度单位中的一个,其他两个是电子的康普顿波长及经典电子半径。
The Bohr radius of the electron is one of a trio of related units of length , the other two being the Compton wavelength of the electron and the classical electron radius .
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当微粒尺寸减小至激子的玻尔半径时,由于晶界改变了电子分布状态,相应的电子能态从连续的能带变为分立的能级结构,使带隙变宽,表现出量子限域效应。
When the size of the nanocrystals decreases to the exciton Bohr radius , the energy level becomes discrete from the continuum , and the energy gap increases as the crystal boundary significantly modifies electron distribution , showing a quantum confinement effect .
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根据玻尔理论,玻尔半径是在基态氢原子中电子运动的圆周半径。
Bohr radius was the radius of the circle in which the electron moved in the ground state of the hydrogen atom , according to the Bohr theory .
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证明了:在玻尔的电子轨道半径表达式中,用折合质量代换电子质量不能求得轨道半径,只能求得电子(轨道粒子)&质子(原子核)之间的距离。
We prove that replacing the electron mass by the reduced mass in Bohr 's equation for the radius of the electron does not yield Bohr 's orbit radius , but rather the electron ( orbit particle ) - proton ( nucleus ) separation .
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尽管玻尔模型并没有正确地描述原子,玻尔半径还是保有了它的物理意义,代表着电子云大小的完全量子力学描述。
While the Bohr model does not correctly describe an atom , the Bohr radius keeps its physical meaning as a characteristic size of the electron cloud in a full quantum-mechanical description .