Scientists developed a technique to create atomic movies that show the transition of a quantum…
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.
A novel quantum sensor with exceptional resolution transforms atomic-level material analysis, paving the way for…
NUS researchers have created a new butterfly-shaped magnetic nanographene that could improve quantum computing by…
A powerful combination of high-throughput computation and precise fabrication techniques has been developed to accelerate…
Researchers have successfully observed an antiferromagnetic phase transition in a quantum simulator, a significant step…
New findings suggest the need to re-evaluate current theories on electron interactions, leading to a…
Researchers from an international consortium have published a groundbreaking study that advances the field of…
The technique opens possibilities for exploring exotic states of matter and building new quantum materials.…
Professor Fabio Boschini and his team at QMI-UBC have highlighted the TR-ARPES photoemission technique. Research…
The potential of quantum technology is huge but is today largely limited to the extremely…
For the first time, scientists electrically manipulate a ‘chiral interface state’ in a 2D material,…
The results, continuing the legacy of late Columbia professor Aron Pinczuk, are a step toward…
New states of order can arise in quantum magnetic materials under magnetic fields. An international…
Innovative use of timed laser pulses by JILA and CU Boulder researchers provides new insights…
This breakthrough will enable scientists to convert everyday materials into conductors for use in quantum…
Thermoelectric effect reveals full picture of fluctuations in superconductivity. Weak fluctuations in superconductivity,[1] a precursor…
Researchers at the National University of Singapore (NUS) have developed an innovative method for creating…
A groundbreaking europium-based compound, Cs2NaEuF6, could revolutionize quantum memory storage, indicating a promising direction for…