quantum wavepackets
量子波包
wavepackets interfere
波包干涉
wavepackets propagate
波包传播
wavepackets spread
波包扩散
overlapping wavepackets
重叠波包
wavepackets interact
波包相互作用
wavepackets collide
波包碰撞
wavepackets merge
波包合并
wavepackets disperse
波包色散
wavepackets form
波包形成
quantum wave packets describe the probability distribution of particles in quantum mechanics.
量子波包描述了量子力学中粒子的概率分布。
the wave packets spread out as they propagate through different media.
波包在不同介质中传播时会扩散。
scientists can reconstruct wave packets using quantum measurement techniques.
科学家可以利用量子测量技术重建波包。
electron wave packets exhibit both particle and wave characteristics simultaneously.
电子波包同时表现出粒子和波动的特性。
the interference of wave packets creates characteristic patterns in experiments.
波包的干涉在实验中产生特征性的图样。
localized wave packets help researchers study quantum phenomena more precisely.
局域波包帮助研究人员更精确地研究量子现象。
wave packet dispersion becomes significant over long distances.
波包色散在长距离传播时变得显著。
the formation of wave packets depends on initial conditions.
波包的形成取决于初始条件。
light wave packets can be used in quantum communication protocols.
光波包可用于量子通信协议中。
wave packet splitting reveals fundamental principles of quantum mechanics.
波包分裂揭示了量子力学的基本原理。
the dynamics of wave packets involve complex mathematical formulations.
波包动力学涉及复杂的数学公式。
superposition allows wave packets to occupy multiple states at once.
叠加效应使波包能够同时处于多个状态。
quantum wavepackets
量子波包
wavepackets interfere
波包干涉
wavepackets propagate
波包传播
wavepackets spread
波包扩散
overlapping wavepackets
重叠波包
wavepackets interact
波包相互作用
wavepackets collide
波包碰撞
wavepackets merge
波包合并
wavepackets disperse
波包色散
wavepackets form
波包形成
quantum wave packets describe the probability distribution of particles in quantum mechanics.
量子波包描述了量子力学中粒子的概率分布。
the wave packets spread out as they propagate through different media.
波包在不同介质中传播时会扩散。
scientists can reconstruct wave packets using quantum measurement techniques.
科学家可以利用量子测量技术重建波包。
electron wave packets exhibit both particle and wave characteristics simultaneously.
电子波包同时表现出粒子和波动的特性。
the interference of wave packets creates characteristic patterns in experiments.
波包的干涉在实验中产生特征性的图样。
localized wave packets help researchers study quantum phenomena more precisely.
局域波包帮助研究人员更精确地研究量子现象。
wave packet dispersion becomes significant over long distances.
波包色散在长距离传播时变得显著。
the formation of wave packets depends on initial conditions.
波包的形成取决于初始条件。
light wave packets can be used in quantum communication protocols.
光波包可用于量子通信协议中。
wave packet splitting reveals fundamental principles of quantum mechanics.
波包分裂揭示了量子力学的基本原理。
the dynamics of wave packets involve complex mathematical formulations.
波包动力学涉及复杂的数学公式。
superposition allows wave packets to occupy multiple states at once.
叠加效应使波包能够同时处于多个状态。
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