Associate professor Mazhar Ali and his research group at Delft University of Technology (TU Delft)…
Browsing: Quantum Materials
Quantum materials are substances in which quantum mechanical interactions play a critical role in determining their electronic, magnetic, and optical properties. These materials often exhibit unconventional behavior that cannot be explained by classical physics alone, such as superconductivity, topological insulator properties, and quantum Hall effects. Research in quantum materials aims to harness these unique properties for applications in quantum computing, sensing, and energy technologies. The study of quantum materials is a rapidly evolving field, intersecting with condensed matter physics, materials science, and applied physics, promising revolutionary advances in technology and a deeper understanding of matter.
‘Geometric frustration’ can cause the electrons in materials with atoms arranged in a triangular pattern…
A new method for creating and controlling divacancies in silicon carbide could significantly impact quantum…
Physicists developed a theory describing how parity-time (space reflection and time reversal) symmetries can be…
Work has potential applications in quantum computing, and introduces new way to plumb the secrets…
The chemically controlled chains reveal an ultrastrong attraction between electrons that may help cuprate superconductors…
KPZ dynamics, once seen only in classical systems, are now confirmed in quantum spin chains…
A new method designs nanomaterials with less than 10-nanometer precision. It could pave the way…
Berkeley Lab-Led Research Key to Next-Gen Quantum Computing and Technologies In 1998, researchers including Mark…
Water can freeze from liquid to solid ice or boil into a gas. In the…
Pandemic lockdown forces a new perspective on designs for futuristic AI-based computing devices. Isaac Newton’s…
Mott Insulator Exhibits a Sharp Response to Electron Injection In a finding that will give…
Electrons in 3D materials can mimic 2D quantum Hall effects through spiral motion and queueing…
Odd Angles Make for Strong Spin-Spin Coupling Sometimes things are a little out of whack,…
Ultrafast lasers expose how quantum materials like CeTe₃ switch states at the atomic level. Lex…
Pioneering experiment could help design energy-efficient materials. In a groundbreaking study published in Physical Review…
Scientists at Tokyo Institute of Technology (Tokyo Tech) synthesize sub-nanometer particles with precisely controlled proportions…
In a very unusual way, the electrical and magnetic properties of a particular crystal are…