Tuesday, April 20, 2021

‘Tweezer Clock’ can help determine the time more precisely

Tweezer Clock can help determine the time more precisely, Atomic clocks are used around the world to precisely tell time. Each "tick" of the...

New setup for high-throughput electrical measurements of quantum materials and devices

QuTech, a collaboration between TU Delft and TNO, has demonstrated a novel setup for fast turnaround testing and validation of quantum materials and devices....

Joined nano-triangles pave the way to magnetic carbon materials

Graphene triangles with an edge length of only a few atoms behave like peculiar quantum magnets. When two of these nano-triangles are joined, a...

Belle II yields the first results: In search of the Z′...

The Belle II experiment has been collecting data from physical measurements for about one year. After several years of rebuilding work, both the SuperKEKB...

New simple method for measuring the state of lithium-ion batteries

Rechargeable batteries are at the heart of many new technologies involving, for example, the increased use of renewable energies. More specifically, they are employed...

Researchers Discover New Method to Generate Substantial Volumes of Nanobubbles in...

Researchers at University College Dublin (UCD) have discovered a new energy-efficient method to generate and release substantial volumes of metastable, nano-scale gas bubbles in...

Researchers Help Expand Search for New State of Matter

A recent discovery by University of Arkansas physicists could help researchers establish the existence of quantum spin liquids, a new state of matter. They’ve...

Researchers map tiny twists in “magic-angle” graphene

Made of a single layer of carbon atoms linked in a hexagonal honeycomb pattern, graphene’s structure is simple and seemingly delicate. Since its discovery...

The new experiment could help to find neutrinos using radar echoes

The new experiment could help to find neutrinos using radar echoes, One of the great mysteries of astrophysics today is small subatomic particles called...

Fresh antimatter study by ALICE collaboration will help with the search...

The ALICE collaboration has presented new results on the production rates of antideuterons based on data collected at the highest collision energy delivered so...

3D-Printed Plastics With High Performance Electrical Circuits

Rutgers engineers have embedded high performance electrical circuits inside 3D-printed plastics.

Carving Out Quantum Space: Bridging the gap between fastest computers

The race toward the first practical quantum computer is in full stride. Companies, countries, collaborators, and competitors worldwide are vying for quantum supremacy. Google...

Optoelectronic devices make optical fiber communications more energy efficient

Researchers say a new discovery on a U.S. Army project for optoelectronic devices could help make optical fiber communications more energy efficient. The University of...

Ultrafast multidimensional spectroscopy unlocks quantum correlations

Ultrafast multidimensional spectroscopy unlocks quantum correlations, Ultrafast multidimensional spectroscopy releases the macroscopic effect of quantum electron correlation. The researchers found that low energy and high...

Frozen-planet states in exotic helium atoms

Exotic subatomic particles that are like 'normal' particles apart from one, opposite, property -- such as the positron, which is like an electron but...

Physicists Builds Hybrid Quantum System by Entangling Molecule With Atom

Physicists at the National Institute of Standards and Technology (NIST) have boosted their control of the fundamental properties of molecules at the quantum level...

Game changer in thermoelectric materials could unlock body-heat powered personal devices

A new University of Wollongong study overcomes a major challenge of thermoelectric materials, which can convert heat into electricity and vice versa, improving conversion...

Scientists have discovered the first antiferromagnetic topological quantum material

Scientists have discovered the first antiferromagnetic topological quantum material, Scientists have discovered a new type of mass quantum material with inherent magnetic and topological...

When Maxwell’s demon takes its time

Researchers at the Universities Vienna and Stuttgart have investigated a version of Maxwell's demon embodied by a delayed feedback force acting on a levitated...

Finnish re­search­ers have dis­covered a new type of matter in­side neut­ron...

A Finnish research group has found strong evidence for the presence of exotic quark matter inside the cores of the largest neutron stars in...

Crystalline ‘nanobrush’ clears way to advanced energy and information tech

A team led by the Department of Energy’s Oak Ridge National Laboratory synthesized a tiny structure with high surface area and discovered how its...

The 14-tesla magnet fully assembled at Spallation Neutron Source

Researchers at the Department of Energy’s (DOE’s) Oak Ridge National Laboratory (ORNL) have finished the preliminary commissioning of a new 14-tesla magnet at the...

New “refrigerator” super-cools molecules to nanokelvin temperatures

For years, scientists have looked for ways to cool molecules down to ultracold temperatures, at which point the molecules should slow to a crawl,...

Scientists See Energy Gap Modulations in a Cuprate Superconductor

For years physicists have been trying to decipher the electronic details of high-temperature superconductors. These materials could revolutionize energy transmission and electronics because of...

Researchers are developing a new platform for all optical computing

Researchers are developing a new platform for all optical computing, Researchers have developed a new platform for all optical calculations, namely for calculations that...

Researchers use 3D printing, sensors to create models for hydropower testing

Hydropower developers must consider many factors when it comes time to license a new project or renew an existing one: How can environmental impacts...

A team of researchers now film quantum measurements

A team of researchers now film quantum measurements Quantum physics describes the inner world of individual atoms, a world that is very different from our...

Excitons form superfluid in certain 2D combos

Mixing and matching computational models of 2D materials led scientists at Rice University to the realization that excitons — quasiparticles that exist when electrons...

Quantum mechanical phenomena control in organic solar cells

Doctoral student Qingzhen Bian obtained remarkable results when he experimented on optimizing a solar cell material consisting of two light absorbing polymers and an...

The properties of molecules and materials on a quantum simulator

The properties of molecules and materials on a quantum simulator, A new technique for studying the properties of molecules and quantum simulator materials has...

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