Super Conductor Collection

Magnetic levitation of superconductor
Demonstration of magnetic levitation of one of the new high-temperature superconductors - yttrium- barium- copper oxide (Y-Ba2-Cu3-O7-x)

Electromagnetic formation flight testbed (EMFF). Researcher examines the EMFF testbed. This machine is designed to test alternative forms of propulsion for future formation-flying space satellites

Superconductivity, conceptual image. Superconductivity is a phenomenon where the structure of a material allows unimpeded flow of electrons, usually only at low temperatures

Superconductor simulation. Computer model showing superconducting puddles in a high-temperature (high Tc) superconductor. In this context

Superconductor, conceptual image. Computer artwork of swirling colours, representing superconductivity within an object. Superconductivity occurs in certain materials at very low temperatures

High temperature superconductor. Molecular model of part of the high temperature superconductor, YBCO-6. Superconductors transmit electrical current without any electrical resistance

Superconductor surface, STM
Superconductor surface. Coloured scanning tunnelling micrograph (STM) of the surface of a bismuth strontium calcium copper oxide (BSCCO) superconductor on an atomic scale

Superconductor. Molecular model of the crystal structure of magnesium diboride (MgB2), a new super-conductor. Red spheres represent magnesium atoms and purple represent boron atoms

Justis superconductivity experiment. Experimental equipment used in superconductivity research by the electrochemist Eduard Justi. The experiment was carried out in Berlin, Germany, in 1941

Quantum computer. Superconducting magnet housing a liquid solution of a chemical that forms a 5-bit (or 5-qubit) quantum computer. The computer uses NMR (Nuclear Magnetic Resonance) techniques

Linear accelerator
TESLA accelerator component. Technician in clean room clothing checking a resonator for use in the TESLA (Tera-electron Volt Energy Superconducting Linear Accelerator)

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"Unlocking the Power of Superconductors: Revolutionizing Transportation and Technology" Magnetic levitation of superconductor: Witness the incredible phenomenon where a superconductor defies gravity, floating effortlessly above a magnetic track. Electromagnetic formation flight testbed: Exploring futuristic possibilities, scientists are testing electromagnetic formations that could revolutionize aviation, enabling efficient and eco-friendly air travel. Superconductivity, conceptual image: Delve into the realm of superconductivity with this captivating visual representation showcasing its potential to transform various industries. Superconductor simulation: Step into the virtual world as researchers simulate and analyze complex interactions within superconductors, paving the way for groundbreaking discoveries. High temperature superconductor: Discover how scientists have pushed boundaries by developing high-temperature superconductors that can operate at relatively warmer conditions – opening doors for practical applications. Superconductor surface, STM (Scanning Tunneling Microscopy): Peer through an incredibly powerful microscope to observe the intricate details of a superconductor's surface – unveiling its unique properties on a nanoscale level. Magnetic levitation of superconductor: Marvel at yet another mesmerizing demonstration where magnets suspend a superconductive material in mid-air – showcasing its extraordinary capabilities firsthand. Intriguingly combining science fiction with reality, these advancements in "super conductor" technology hold immense promise for transforming transportation systems and powering cutting-edge technologies across multiple sectors.