Quantum Metrology and Sensing: Harnessing Quantum Mechanics for Precision Measurement Abstract: This paper explores the fascinating field of quantum metrology and sensing, which utilizes the principles of quantum mechanics to achieve high-precision measurements and sensing beyond classical limits. It provides an overview of the fundamental concepts of quantum metrology, including quantum entanglement, squeezed states, and… Read More
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Quantum Entanglement: Harnessing Nonlocal Correlations in the Quantum World Abstract: This paper delves into the fascinating phenomenon of quantum entanglement, a key aspect of quantum mechanics where particles become intrinsically correlated, regardless of distance. It explores the historical background of quantum entanglement, its experimental verification, and the profound implications it has for fundamental physics, quantum… Read More
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Quantum Physics: Exploring the Intricacies of the Subatomic World Abstract: This paper provides an in-depth exploration of quantum physics, a branch of physics that delves into the peculiar behavior of matter and energy at the subatomic level. It discusses the foundational principles of quantum theory, including wave-particle duality, superposition, and quantum entanglement. Furthermore, it highlights… Read More
Continue ReadingThe definition of Quantum entanglement.
Continue ReadingThe definition of Quantum entanglement.
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An Overview of Quantum Mechanics: Fundamental Principles and Modern Applications Abstract: This paper provides an introduction to quantum mechanics, a theory that describes the physical reality at the most fundamental level – the atomic and subatomic particles. It outlines the fundamental principles that underlie quantum mechanics and discusses its profound implications in a variety of… Read More
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