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 ·Primary Target Materials Metals/Alloys:Nb、W、Ag、In、Si、Ti、Ni、Cr、Sn、Cu、 Ceramics/Oxides: Nb₂O₅、ZrO₂、TiO₂、MgO、LNO、PZT、 Core Materials Matrix Al、WTi、TiSi、InSn、NiFe、NiCr、TiAl、AlSi、ZnAl、SS TiO₂-Nb₂O₅、TiO₂-ZrO₂、SiO₂-ZrO₂、ZTO Why Choose UV Tech Material LTD.?
High Purity: We have achieved stringent control over trace impurities (such as magnetic impurities like Fe and Ni), ensuring that our superconducting films exhibit perfect zero resistance and diamagnetic properties at cryogenic temperatures.
System Certification: Our production processes strictly adhere to management system standards including IATF 16949, ISO 9001, ISO 14001, and ISO 45001. End-to-End Support: We provide comprehensive technical support ranging from material customization and substrate bonding to large-area sputtering applications. Significant Contribution: By overcoming technical barriers in core superconducting materials, we significantly reduce the background noise and quantum loss in cryogenic devices, thereby providing strong support for the development of national-level major scientific facilities and next-generation quantum information technology. Product Applications 1. Superconducting Quantum Computing | A Quantum Leap in Computing Power Designed specifically for the development of quantum chips and qubits. We provide high-purity superconducting target materials and precisely fabricate core Josephson junctions and insulating barriers to ensure ultra-low loss and long quantum coherence times. 2. Cryogenic Microelectronics and Sensors | Extreme Detection Empowering superconducting quantum interference devices (SQUIDs) and single-photon detectors (SNSPDs). We deposit highly uniform superconducting thin films to achieve ultra-sensitive detection of weak magnetic fields and single-photon levels, meeting the demands of aerospace research and precision medicine. 3. Major Scientific Facilities and High-Field Magnetic Equipment | Cornerstone of Magnetic Energy Supporting accelerators, nuclear fusion, and magnetic resonance imaging (MRI) systems. We provide high-performance superconducting alloy targets and support surface functionalization of superconducting wires and cavities, ensuring zero-resistance transport and stability under extreme low-temperature, high-magnetic-field conditions. |