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Uncertainty Relation Experimental Setup
The Uncertainty Principle Experimental Setup is a visualization platform specifically designed for teaching quantum mechanics. It aims to provide an intuitive verification of Heisenberg’s Uncertainty Principle through optical interference and diffraction phenomena, while also exploring the intrinsic relationships among conjugate variables such as position-momentum and time-energy. By integrating core concepts of quantum mechanics with classical optical experiments, this setup employs an “seeing-is-believing” interactive approach to help students break free from conventional classical physics mental frameworks and lay a practical foundation for understanding theories like quantum measurement and wave-particle duality.
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Michelson interferometer experimental setup
The Michelson interferometer is an experimental instrument specifically designed for undergraduate programs in optoelectronics and quantum information. Based on the principle of Michelson interference, it is a precision optical instrument that employs the amplitude-splitting method. It is primarily used to measure physical quantities such as optical path difference, length, and refractive index, and finds applications in modern science—including gravitational-wave detection. Thanks to its ingenious design and versatile functionality, the Michelson interferometer remains a cornerstone tool in optical experiments and precision measurements. Moreover, various modern interferometers derived from its underlying principles continue to drive advancements in both scientific research and industrial technology.
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Polarization and 3D Imaging Experimental Setup
The Polarization and 3D Imaging Experiment Kit is an innovative experimental set specifically designed for optics education. Through hands-on, intuitive experiments, it helps students explore the principles of polarized light and its real-world applications. The kit includes components such as 3D glasses, high-precision polarization filters, and a genuine movie screen, enabling the construction of three different 3D imaging systems that deliver cinema-quality stereoscopic visual effects and vividly reveal the mysteries of polarized light behind 3D movie technology.
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Quantum eraser experimental setup
The quantum eraser experimental setup is a quantum-optical system designed based on the Mach-Zehnder interferometer. Its core components include a laser, a beam splitter, polarization-modulation elements, and an observation screen. By controllably marking and then erasing path information, this setup provides a直观 demonstration of quantum superposition, the principle of complementarity, and the delayed-choice effect. It serves as a key experimental platform for studying quantum measurement and information evolution.
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A solid-state laser is a highly efficient optical system built upon a solid-state gain medium—such as neodymium-doped yttrium aluminum garnet crystal (Nd:YAG) or titanium-doped sapphire crystal. Its core function is to generate a high-brightness, highly coherent laser output via stimulated emission.
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Quantum Correlation Imaging Experimental Setup
The quantum correlation imaging device is based on the scattering imaging principle using a spatial light modulator (SLM). It replaces the rotating frosted glass traditionally used in conventional scattering imaging experiments with an SLM to generate a pseudo-thermal light field, and can also be used to produce objects.
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Quantum Key Distribution Demonstration Experimental Setup
The quantum key distribution demonstration experimental setup is a modular teaching system designed based on the BB84 protocol, specifically developed for optical and information security courses in higher vocational colleges. It includes core components such as a polarization-encoded laser source (850 nm), a manual polarization controller, and a single-photon detector, and supports the construction of simple optical setups to simulate the quantum key distribution process.
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