Transforming superconducting devices technology
SuperQ is a world leader in superconducting device technology that is building commercial scale applications in state-of-the-art superconducting devices technology.
Our Vision
Our vision is to design, discover and deploy new superconductor-based products operating at high temperature with a focus on commercial viability. Such a development will pave a way towards multitude of applications ranging from healthcare, power generation, storage, transmission, transportation, high-energy physics, and quantum information processing.
Our Technology
Our core technology consists of high-performance simulation models for superconducting materials and the experimental realization of superconducting device fabrication. Our novel approach to R&D is a holistic integration of the simulation models and experimental realizations offering us a competitive advantage.
Superconducting Device Technology
Control Cryo Electronics, Integrated Cryo Coolers
Materials Research
We are building a platform for automated material discovery, accelerated using data-driven approaches like machine learning. This platform leverages the pre-existing knowledge of material informatics to build machine learning models that can predict material properties. We augment this approach with simulation capabilities using quantum-inspired computing.
High Temperature Superconductivity
Building on our simulation models, we are predicting the presence of high temperature superconductors with desired properties. The aim is to realize the superconducting technology in building efficient motors, utility-scale energy storage systems, lossless power transmission, portable medical equipment, quantum computing and communication devices.
Products
SuperQ SuperSensTM
Single photon detector offers the combined capacity of high efficiency single photon detection at high temporal resolution with robust cryogenics that outperform conventional low-temperature superconducting solutions.
LTS Cryo Cables
Our low temperature superconducting (LTS) cryo cables are transmission line platforms on flexible substrates for cryogenic applications. They are resistant against thermal cycling and offer excellent flexibility and phase stability.
2G HTS Tapes
Our high temperature superconducting (HTS) tape conducts -200 times the amount of current via the same cross-section of copper with negligible power loss. We provide reliable tapes for efficient power generation, grid interconnections, healthcare and propulsion systems.
Applications of SuperQ
HTS Cables
HTS cable is compact, power efficient and offers cost effective solutions for on and off shore grid interconnections.
HTS Magnets
HTS Magnet technology enables a faster path to commercial fusion energy and advanced healthcare setups.
HTS Motors
HTS motors offer significant advantage in size, weight and performance for ship and aircraft propulsion applications.Impact
We are fueled and driven by the vision to build transformative superconducting devices technology that will significantly impact the technological, societal, financial, and economic aspects of the modern world. Through our cutting-edge research and development practices, we aim to create novel technologies that are useful, cost-effective, and ultimately have a positive societal contribution.
Quantum Technologies
Our products will impact multiple aspects of quantum technology. The development of cost-effective and high performance SSPDs will be indispensable for developing quantum repeaters that are an essential component of quantum networks and quantum internet. The automated discovery of high temperature superconductors by our simulation platform could potentially pave the way for high temperature quantum computing devices.
Materials Research
Our automated material discovery platform accelerated by machine learning and quantum-inspired computing will circumvent the need for expensive and time-consuming material synthesis. We would be able to predict material properties using quantum-enhanced simulations and derive information about melting temperatures of binary compounds, the crystal structure at a given composition, band-gap energies, and density of states of certain classes of materials. This would transform the entire field of material informatics and material discovery.
Healthcare
Superconducting MRI Systems are highly stable and produce ultra-high-resolution images. Our efforts to build compact and cost-effective MRI machines using high temperature superconductors, that will significantly impact the accessibility of the healthcare industry.
Sustainable Energy and Transportation
High temperature superconductors will disrupt major aspects of power generation, storage, and transmission with the development of efficient superconducting generators and lossless transmission lines.