Draw the field lines on both cases and explain the different behaviors due to the magnetic field. ![]() Can you tell the difference in the levitation between the two options?.The magnets across the spacer should attract each other which will help keeping the spacer in place.Ĭool the levitator and place it on the track. Repeat this track shape with a spacer between the two rows. Observe – The Superconductor is locked on the track AND can move freely along the straight line. Try to push magnets along the track as close to each other as possible.Ĭool the levitator and place it on the track. Penn State graduate student Yuan Le, the first author of the paper describing the. While many quantum experiments examine very small objects, such as electrons and photons, quantum phenomena are all around us, acting on every scale. New experiments with ultra-cold atomic gases uncover universal physics in the dynamics of quantum systems. It aims to uncover the properties and behaviors of the very building blocks of nature. Q: Why is the superconductor locked stable in all directions?īuild a straight track by placing the magnets on the steel sheet such that adjacent magnets, side-by-side, attract each other (opposite orientations) and magnets along the track repel each other. Quantum physics is the study of matter and energy at the most fundamental level. Try to visualize the magnetic field lines. Explore the locking of the superconductor due to flux pinning. The interdisciplinary team develops a space mission to test a quantum light source in space on a CubeSat for future quantum communication scenarios.
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