In quantum mechanics, wavefunctions represent a system's state, providing essential probabilistic information for advanced quantum computing applications.
By Ibtisam Abbasi
12 Aug 2025
Discover how ARPES and HREELS reveal electron band structure and collective excitations in quantum materials.
The measurement problem highlights the collapse of quantum states, a key issue for quantum technologies and the philosophical implications of quantum mechanics.
By Atif Suhail
8 Aug 2025
Research in orbitronics is unlocking the potential of orbital angular momentum, driving innovations in quantum computing and enhancing spintronic technologies.
By Abdul Ahad Nazakat
6 Aug 2025
Decarbonizing the built environment is crucial for net-zero goals. Quantum computing enhances building operations, optimizing energy use and reducing emissions.
By Reginald Davey
31 Jul 2025
Quantinuum's milestone in quantum computing features a fault-tolerant universal gate set, leveraging high-fidelity magic states for effective error correction.
Recent studies suggest the universe may be decaying or expanding faster than predicted, challenging the Lambda-CDM model and Hubble constant measurements.
Semiconductors integrate quantum mechanics and material science, enabling advancements in electronics and paving the way for quantum computing innovations.
By Abdul Ahad Nazakat
18 Jul 2025
This research confirms conservation laws in single-photon interactions, closing gaps in quantum optics and supporting the foundations of quantum field theory.
T-symmetry connects quantum mechanics and classical physics, revealing the intricate balance between time's reversibility and observed irreversibility.
By Ankit Singh
8 Jul 2025