Abstract :
Cheap to make, simple to cool, easy to shape into wires, magnesium diboride could throw the field of superconducting applications wide open. With a superconducting transition temperature of 39 K, it can be conveniently cooled with commercial cryocoolers or liquid hydrogen (boiling point: 20.2 K). A powder that can be found in any well-stocked chemistry laboratory, it had never been tested for superconductivity until very recently. However, just 18 months after its discovery, magnesium diboride is on the road to producing real-world applications. The main properties of the material and the fabrication of superconducting wires are discussed in this article. Its advantages over high-temperature superconductors are discussed
Keywords :
boron alloys; magnesium alloys; multifilamentary superconductors; type II superconductors; 39 K; MgB2; cryocoolers; liquid hydrogen cooling; magnesium diboride; superconducting transition temperature; superconducting wires fabrication; Chemistry; High temperature superconductors; Hydrogen; Laboratories; Magnesium compounds; Powders; Shape; Superconducting filaments and wires; Superconducting transition temperature; Testing;
