Microsoft's Majorana 1 chip utilizes a fourth state of matter, enhancing qubit stability and paving the way for scalable, fault-tolerant quantum computing.
Discover why precision is the key to unlocking breakthroughs in quantum computing and advanced manufacturing.
Catherine Yokan's work at the Lightweight Manufacturing Centre focuses on advanced composites, addressing challenges in aerospace and promoting sustainability.
By Louis Castel
20 Mar 2025
Advancements in topological materials are key to semiconductor innovation, enabling the development of efficient nanoscale chips and reducing operational costs.
By Ibtisam Abbasi
19 Mar 2025
Axions are a leading dark matter candidate, potentially solving key physics questions with their unique properties and role in cosmic structure formation.
By Reginald Davey
14 Mar 2025
The arrow of time, rooted in entropy and thermodynamics, contrasts with time-symmetric laws of physics, raising questions about time's true nature.
By Atif Suhail
11 Mar 2025
Quantum materials research focuses on nanoscale techniques, unlocking properties that drive innovations in quantum computing and energy-efficient technologies.
Quantum dots (QDs) enable advancements in neuromorphic computing, mimicking brain functions with high efficiency and tunable properties for AI applications.
By Nidhi Dhull
4 Mar 2025
Quantum-enhanced spectroscopy transforms analysis with superior sensitivity, crucial for detecting minute changes in biological and environmental systems.
By Samudrapom Dam
28 Feb 2025
Quantum financial systems leverage quantum computing to enhance portfolio management, payment systems, and risk management while addressing security challenges.
By Ilamaran Sivarajah
25 Feb 2025