Electromagnetism
Electromagnetism is a branch of physics that deals with the study of electromagnetic forces and their interplay with electric charges and currents. This phenomenon, encompassing… Read More »Electromagnetism
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quantum mechanics
What is spacetime?
Spacetime is a captivating and fundamental concept in physics, combining the three dimensions of space with the fourth dimension of time into a unified framework.… Read More »What is spacetime?
Quantum storage breakthrough paves way for quantum internet
Quantum technologies are rapidly advancing, leveraging the principles of quantum mechanics in engineered systems to potentially revolutionize computational efficiency and communication security beyond classical technologies.… Read More »Quantum storage breakthrough paves way for quantum internet
LHCb experiment provides new insights into hadronization
Physics delves into the mysteries of the universe, and one intriguing aspect explored at the Large Hadron Collider (LHC) is the creation of quark-gluon plasma… Read More »LHCb experiment provides new insights into hadronization
What is quantum gravity?
Quantum gravity is a theoretical framework that aims to reconcile the principles of quantum mechanics and general relativity, two foundational theories in physics that describe… Read More »What is quantum gravity?
What is a particle?
Particles are fundamental entities that form the building blocks of the universe, playing a crucial role in our understanding of the physical world. Ranging from… Read More »What is a particle?
What is an atom?
An atom is the fundamental building block of matter, representing the smallest unit of an element that retains the chemical properties of that element. To… Read More »What is an atom?
Quantum random number generators enhance security of zero-knowledge proofs
Zero-knowledge proof (ZKP) stands as a powerful cryptographic tool, facilitating the verification of trust between parties that don’t inherently trust each other, all without divulging… Read More »Quantum random number generators enhance security of zero-knowledge proofs
Researchers use light to observe quantum backflow
Researchers at the University of Warsaw’s Faculty of Physics have ingeniously superimposed two light beams, inducing anti-clockwise twists within the dark regions of their resulting… Read More »Researchers use light to observe quantum backflow
New benchmark dataset provides tools to assess and improve solid-state DFT codes
For the past few decades, physicists and materials scientists around the world have been busy developing computer codes that simulate the key properties of materials,… Read More »New benchmark dataset provides tools to assess and improve solid-state DFT codes
Cavity vacuum fluctuations turn antiferromagnet into ferromagnet
Researchers from Germany and the United States have achieved a groundbreaking theoretical demonstration showcasing the ability to control the magnetic state of an atomically thin… Read More »Cavity vacuum fluctuations turn antiferromagnet into ferromagnet
Simulating time travel can solve experimental problems, say physicists
Physicists have demonstrated that simulating hypothetical time travel models can potentially help resolve experimental challenges that seem unsolvable within conventional physics. By manipulating quantum entanglement,… Read More »Simulating time travel can solve experimental problems, say physicists
Silicon photonic chip could enable practical quantum simulation
In our current era, we find ourselves amidst a relentless race towards the development of quantum computers, devices rooted in the mysterious principles of quantum… Read More »Silicon photonic chip could enable practical quantum simulation
Microwaves help create ultracold sodium-cesium molecules
Almost a century ago, two prominent physicists, Satyendra Nath Bose and Albert Einstein, jointly predicted the existence of a theoretical state of matter. This unique… Read More »Microwaves help create ultracold sodium-cesium molecules
Quantum dots and orbital angular momentum enable hybrid entanglement for quantum technology
The future of quantum technology hinges on harnessing intricate principles of quantum mechanics, such as high-dimensional quantum states, which serve as the fundamental building blocks… Read More »Quantum dots and orbital angular momentum enable hybrid entanglement for quantum technology
Researchers from delft develop chessboard-like method to address quantum dots
Delft researchers have achieved a significant breakthrough in the realm of quantum technology. They’ve devised an innovative method reminiscent of a chessboard to manage multiple… Read More »Researchers from delft develop chessboard-like method to address quantum dots
Scientists observe novel ergodicity-breaking in C60 molecule
In a recent Science paper, a team led by JILA and NIST Fellow Jun Ye, along with researchers from JILA, NIST Fellow David Nesbitt, the… Read More »Scientists observe novel ergodicity-breaking in C60 molecule
New theory explains strange metal behavior
For nearly four decades, ‘strange metals’ have baffled quantum physicists due to their perplexing behavior, which defies conventional rules of electricity. A groundbreaking study led… Read More »New theory explains strange metal behavior
New quantum mechanics method predicts metal ductility
A novel approach to predicting metal ductility has been developed by a team of scientists from Ames National Laboratory and Texas A&M University. This innovative… Read More »New quantum mechanics method predicts metal ductility
NIST validates new approach to measuring extremely low gas pressures
In the realm of vacuum chambers, true emptiness is an elusive concept. Even in the most pristine environments, a few atoms or molecules persist, necessitating… Read More »NIST validates new approach to measuring extremely low gas pressures
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