Researchers monitored the diameter of semiconductor quantum dots in real time by observing the wavelength…
Browsing: Quantum Physics
Quantum physics is a fundamental theory in physics that describes the nature and behavior of matter and energy at the atomic and subatomic levels. It emerged in the early 20th century as scientists discovered that the classical laws of physics could not explain phenomena observed at microscopic scales. Quantum physics introduces concepts such as quantization of energy, wave-particle duality, and the uncertainty principle. These principles suggest that particles can exist in multiple states simultaneously (superposition) and can affect each other’s states over distance (entanglement), phenomena which defy classical intuition. This field has led to the development of revolutionary technologies including semiconductors, lasers, and quantum computing, and continues to be a rich area of research and discovery.
Researchers developed adjustable arrays of waveguides that introduce synthetic modal dimensions, enhancing the management of…
Researchers have created a quantum tornado in superfluid helium to simulate black hole conditions, advancing…
New research has established a reversible framework for quantum entanglement, aligning it with the principles…
Research reveals a new method of establishing order in quantum systems, potentially benefiting quantum technology…
A new paper explores the quantum Griffith singularity in phase transitions, focusing on recent studies…
A new study has demonstrated the three-dimensional quantum Hall effect in acoustic waves using a…
Researchers have used quantum sensors to explore new particle interactions at microscale distances, presenting groundbreaking…
New findings suggest the need to re-evaluate current theories on electron interactions, leading to a…
Researchers found a new series representation for pi while exploring string theory and particle interactions.…
Researchers have unveiled the dynamical nature of emergent magnetic monopoles in real magnets for the…
A quantum physics experiment at the University of Vienna achieved groundbreaking precision in measuring Earth’s…
Scientists have advanced quantum teleportation by mitigating noise interference through a novel method involving hybrid…
Theory has become practice as new work from the University of Chicago Pritzker School of…
Principles behind gravity-mediated entanglement were experimentally demonstrated in a simulation using photons, providing new insights…
A simple concept of decay and fission of “magnetic quivers” helps to clarify complex quantum…
Physicists at Columbia University have taken molecules to a new ultracold limit and created a…
A new method developed by Amsterdam researchers uses non-Gaussian states to efficiently describe and configure…