电荷量子比特，中文例句，英文例句-词都网

1.

The Decoherence of the Parabolic Linear Bound Potential Quantum Dot Charge Qubit 点击朗读

抛物势量子点电荷量子比特的消相干

2.

The Influence of the Form Factor on Longitudinal Piezoelectric Acoustic Phonon Decoherence of a Double Quantum Dot Charge Qubit

形式因子对双量子点电荷量子比特压电纵声学声子退相干的影响

3.

Study on the Quantum Fluctuation Properties of the Charge and the Current in Nanometer Circuit with Source;

纳米含源量子电路中电荷和电流的量子涨落特性研究

4.

intermediate charged vector boson 点击朗读

中间荷电矢量玻色子

5.

Electronic States and the Properties of Qubit in Spherical Shell Quantum Dot 点击朗读

球壳量子点中电子能态及其量子比特的性质

6.

Preparation of Multi-qubit Entangled States Via Atomic Cavity QED 点击朗读

多量子比特纠缠态制备的腔量子电动力学方案

7.

The laws of science, as we know them at present, contain many fundamental numbers, like the size of the electric charge of the electron and ratio of the masses of the proton and the electron.

我们所知道的科学定律包含许多基本常数，就如电子的电荷大小，质子与电子的质量比值，等等。

8.

The Bohr magneton, calculated using the mass and charge of the electron. 点击朗读

鲍尔磁子，用电子的质量和电荷来计算

9.

A charge measurement method of readout electronics for BES Ⅲ TOF detector 点击朗读

BESIII飞行时间电子学中的电荷测量

10.

Comparison Study on Load Property of China s Power Grid Between the Year of 2000 and 2004;

2000年～2004年我国电网负荷特性对比研究

11.

Research on the Charge-transfer of Multiply Charged Ions and Dynamics of a Trapped Ultra-cold Ions;

多电荷离子的电荷转移与超冷离子动力学特性研究

12.

The PIC Simulation of the Space Charge Wave in Plasmas 点击朗读

空间电荷波传播特性的PIC粒子模拟

13.

Light Intensity Performance Comparison between Silicon Photoelectric Generator and CCD 点击朗读

硅光电池与电荷耦合器件测量光强性能比较

14.

Research on Atomization Characteristics and Effect of Droplet Charging of Electrostatic Spraying with Corona Plasma;

电晕等离子体荷电喷雾雾化特性与荷电效果研究

15.

Temperature Compensation for Charge Measurement of BESⅢ TOF Electronics 点击朗读

BESⅢ飞行时间电子学电荷测量电路的温度补偿

16.

The weight of the neutron is about the same as a proton, but it has no electrical charge. 点击朗读

中子的重量和质子差不多相等，但中子不带电荷。

17.

Electronic measuring instruments and computers are all over the place 点击朗读

电子测量仪器和电子计算机比比皆是。

18.

The electron, for example, has negative charge, whilst its antiparticle, called the positron, has positive charge.

举例说明，比如电子带负电荷，同时，它的反粒子被称作正电子—带有正电荷。



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	您的位置：首页 -> 句库 -> 电荷量子比特 1. The Decoherence of the Parabolic Linear Bound Potential Quantum Dot Charge Qubit 抛物势量子点电荷量子比特的消相干 2. The Influence of the Form Factor on Longitudinal Piezoelectric Acoustic Phonon Decoherence of a Double Quantum Dot Charge Qubit 形式因子对双量子点电荷量子比特压电纵声学声子退相干的影响 3. Study on the Quantum Fluctuation Properties of the Charge and the Current in Nanometer Circuit with Source; 纳米含源量子电路中电荷和电流的量子涨落特性研究 4. intermediate charged vector boson 中间荷电矢量玻色子 5. Electronic States and the Properties of Qubit in Spherical Shell Quantum Dot 球壳量子点中电子能态及其量子比特的性质 6. Preparation of Multi-qubit Entangled States Via Atomic Cavity QED 多量子比特纠缠态制备的腔量子电动力学方案 7. The laws of science, as we know them at present, contain many fundamental numbers, like the size of the electric charge of the electron and ratio of the masses of the proton and the electron. 我们所知道的科学定律包含许多基本常数，就如电子的电荷大小，质子与电子的质量比值，等等。 8. The Bohr magneton, calculated using the mass and charge of the electron. 鲍尔磁子，用电子的质量和电荷来计算 9. A charge measurement method of readout electronics for BES Ⅲ TOF detector BESIII飞行时间电子学中的电荷测量 10. Comparison Study on Load Property of China s Power Grid Between the Year of 2000 and 2004; 2000年～2004年我国电网负荷特性对比研究 11. Research on the Charge-transfer of Multiply Charged Ions and Dynamics of a Trapped Ultra-cold Ions; 多电荷离子的电荷转移与超冷离子动力学特性研究 12. The PIC Simulation of the Space Charge Wave in Plasmas 空间电荷波传播特性的PIC粒子模拟 13. Light Intensity Performance Comparison between Silicon Photoelectric Generator and CCD 硅光电池与电荷耦合器件测量光强性能比较 14. Research on Atomization Characteristics and Effect of Droplet Charging of Electrostatic Spraying with Corona Plasma; 电晕等离子体荷电喷雾雾化特性与荷电效果研究 15. Temperature Compensation for Charge Measurement of BESⅢ TOF Electronics BESⅢ飞行时间电子学电荷测量电路的温度补偿 16. The weight of the neutron is about the same as a proton, but it has no electrical charge. 中子的重量和质子差不多相等，但中子不带电荷。 17. Electronic measuring instruments and computers are all over the place 电子测量仪器和电子计算机比比皆是。 18. The electron, for example, has negative charge, whilst its antiparticle, called the positron, has positive charge. 举例说明，比如电子带负电荷，同时，它的反粒子被称作正电子—带有正电荷。

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