Using quantum tunneling in graphene, researchers created a highly sensitive terahertz detector that could transform…
Browsing: Quantum Physics
Quantum physics is the branch of science that explores the fundamental behavior of matter and energy at the smallest scales, typically atoms and subatomic particles. Unlike classical physics, quantum physics reveals a world governed by probability, where particles can exist in multiple states at once (superposition) and become instantaneously linked across vast distances (entanglement). It forms the foundation for much of modern technology, including semiconductors, lasers, and quantum computing, and continues to challenge and expand our understanding of reality. Ongoing research in quantum physics is key to unlocking new technologies and deeper insights into the nature of the universe.
Using a novel laser spectroscopy technique, researchers measured nuclear vibrations in a simple molecule with…
Study by the University of Bonn determines minimum time for complex quantum operations. Even in…
Scientists have used cutting-edge research in quantum computation and quantum technology to pioneer a radical…
Simulation of non-Hermitian quantum mechanics using a quantum computer goes beyond centuries-old conventions. Aalto researchers…
By combining ferromagnets and two rotated layers of graphene, researchers open up a new platform…
A new type of quantum holography that uses entangled photons to overcome the limitations of…
A new quantum causality theory suggests that cause-effect relationships can form logical cycles, defying classical…
The results open new pathways for constructing scalable and complex quantum systems using high-dimensional entanglement.…
A new atomic material mimics brain behavior, enabling self-learning and energy-efficient AI without software. An…
With a clever experiment, physicists have shown that in a one-dimensional quantum system, the initially…
A cutting-edge quantum microscope reveals 3D, real-time views of ultracold atomic collisions. University of Stuttgart…
A new methodology for an abstract and universal description of the fidelity of quantum circuits.…
Researchers modeled non-interacting quantum particles and found behavior that was neither fully chaotic nor ordered.…
A quantum breakthrough allows ultra-precise multi-parameter measurement with no trade-offs, defying traditional limits. Real-life applications…
Nature study: research team from the University of Bonn gains insights into novel quantum phenomena.…
Quantum Techniques Bypass the Resolution Limit, Enabling Ultra-Precise GPS and LIDAR Measurements Researchers at Paderborn…
Scientists Tame Photon-Magnon Interaction Working with theorists in the University of Chicago’s Pritzker School of…