Kronos Fusion Energy Incorporated is at the forefront of developing advanced aneutronic fusion technology, aiming to achieve a fusion energy gain factor (Q) of 40. Our mission is to provide clean, limitless energy solutions for industrial, urban, and remote applications.
SUPERCONDUCTING MATERIALS
Niobium-Tin (Nb3Sn) (SCM-Nb3Sn-001): A superconducting material for high-field magnets, providing strong magnetic fields with minimal energy loss. These magnets are essential for magnetic confinement in fusion reactors, ensuring stable and efficient plasma containment.
Niobium-Titanium (NbTi) (SCM-NbTi-002): Used for lower field magnets, niobium-titanium offers high current carrying capacity and flexibility in design, contributing to the magnetic confinement system's reliability.
Magnesium Diboride (MgB2) (SCM-MgB2-003): A superconducting material for lower temperature applications, providing efficient and cost-effective superconductivity, enhancing the reactor's overall efficiency.
Bismuth Strontium Calcium Copper Oxide (Bi-2212) (SCM-Bi2212-004): A high-temperature superconducting material used in various magnet applications, offering high field strengths and stability, crucial for maintaining effective magnetic confinement.
Yttrium Barium Copper Oxide (YBCO) (SCM-YBCO-005): This high-temperature superconductor is used in power cables and magnets, providing excellent performance at higher temperatures, supporting the stable operation of the reactor's magnetic systems.