meissner's effect
迈斯纳效应
meissner's discovery
迈斯纳的发现
meissner's theory
迈斯纳的理论
meissner's contribution
迈斯纳的贡献
meissners explained
迈斯纳解释
meissner observing
迈斯纳观察
meissner's observation
迈斯纳的观察
understanding meissners
理解迈斯纳
meissner's work
迈斯纳的工作
meissner's principle
迈斯纳的原理
the meissner's effect demonstrates that superconductors expel magnetic fields completely.
迈斯纳效应表明超导体能够完全排出磁场。
scientists study meissner's corpuscles to understand tactile sensation in human skin.
科学家研究迈斯纳小体以了解人体皮肤的触觉感知。
the meissner state is characterized by zero electrical resistance and perfect diamagnetism.
迈斯纳态的特征是零电阻和完全抗磁性。
quantum physicists analyze the meissner-ochsenfeld effect to develop better superconducting materials.
量子物理学家分析迈斯纳-奥肯斯费尔德效应以开发更先进的超导材料。
meissner's transition temperature marks the point where a material becomes superconducting.
迈斯纳转变温度标志着材料进入超导状态的临界点。
researchers measure meissner's flux expulsion to verify superconductivity in new compounds.
研究人员测量迈斯纳通量排斥以验证新化合物的超导特性。
the meissner number predicts whether a superconductor will expel magnetic fields effectively.
迈斯纳数可以预测超导体是否能够有效排出磁场。
medical students learn about meissner's corpuscles in neuroanatomy courses.
医学生在神经解剖学课程中学习迈斯纳小体的知识。
thin meissner's layers form at the surface of superconducting materials.
薄迈斯纳层在超导材料的表面形成。
the meissner effect has significant implications for magnetic levitation technology.
迈斯纳效应对磁悬浮技术具有重要意义。
superconducting qubits utilize quantum properties related to meissner's state for computing.
超导量子比特利用与迈斯纳态相关的量子特性进行计算。
cryogenic experiments are conducted to observe meissner's transition in detail.
进行低温实验以详细观察迈斯纳转变过程。
materials scientists manipulate meissner's domains to enhance superconducting properties.
材料科学家操控迈斯纳畴以增强超导性能。
sensitive magnetic sensors can detect the meissner's effect in various applications.
灵敏的磁传感器可以在各种应用中检测迈斯纳效应。
the meissner phenomenon remains a central topic in condensed matter physics research.
迈斯纳现象仍然是凝聚态物理研究的核心课题。
meissner's effect
迈斯纳效应
meissner's discovery
迈斯纳的发现
meissner's theory
迈斯纳的理论
meissner's contribution
迈斯纳的贡献
meissners explained
迈斯纳解释
meissner observing
迈斯纳观察
meissner's observation
迈斯纳的观察
understanding meissners
理解迈斯纳
meissner's work
迈斯纳的工作
meissner's principle
迈斯纳的原理
the meissner's effect demonstrates that superconductors expel magnetic fields completely.
迈斯纳效应表明超导体能够完全排出磁场。
scientists study meissner's corpuscles to understand tactile sensation in human skin.
科学家研究迈斯纳小体以了解人体皮肤的触觉感知。
the meissner state is characterized by zero electrical resistance and perfect diamagnetism.
迈斯纳态的特征是零电阻和完全抗磁性。
quantum physicists analyze the meissner-ochsenfeld effect to develop better superconducting materials.
量子物理学家分析迈斯纳-奥肯斯费尔德效应以开发更先进的超导材料。
meissner's transition temperature marks the point where a material becomes superconducting.
迈斯纳转变温度标志着材料进入超导状态的临界点。
researchers measure meissner's flux expulsion to verify superconductivity in new compounds.
研究人员测量迈斯纳通量排斥以验证新化合物的超导特性。
the meissner number predicts whether a superconductor will expel magnetic fields effectively.
迈斯纳数可以预测超导体是否能够有效排出磁场。
medical students learn about meissner's corpuscles in neuroanatomy courses.
医学生在神经解剖学课程中学习迈斯纳小体的知识。
thin meissner's layers form at the surface of superconducting materials.
薄迈斯纳层在超导材料的表面形成。
the meissner effect has significant implications for magnetic levitation technology.
迈斯纳效应对磁悬浮技术具有重要意义。
superconducting qubits utilize quantum properties related to meissner's state for computing.
超导量子比特利用与迈斯纳态相关的量子特性进行计算。
cryogenic experiments are conducted to observe meissner's transition in detail.
进行低温实验以详细观察迈斯纳转变过程。
materials scientists manipulate meissner's domains to enhance superconducting properties.
材料科学家操控迈斯纳畴以增强超导性能。
sensitive magnetic sensors can detect the meissner's effect in various applications.
灵敏的磁传感器可以在各种应用中检测迈斯纳效应。
the meissner phenomenon remains a central topic in condensed matter physics research.
迈斯纳现象仍然是凝聚态物理研究的核心课题。
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