Physics News

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• Quantum Computers;
  Physics;
  Quantum Computing;
  Quantum Physics

  Quantum Radar to Detect Objects Which Are Invisible to Conventional Systems

  Feb. 27, 2015 — A prototype quantum radar that has the potential to detect objects which are invisible to conventional systems has now been ... full story
• Physics;
  Optics;
  Telecommunications;
  Quantum Physics
  

  Top-Precision Optical Atomic Clock Starts Ticking

  Feb. 26, 2015 — A state-of-the-art optical atomic clock is now 'ticking away.' As the first of its kind in Poland and one of just a handful of clocks of this caliber in the world, the new clock will keep ... full story
• Materials Science;
  Civil Engineering;
  Engineering and Construction;
  Nanotechnology
  

  New Research Predicts When, How Materials Will Act

  Feb. 26, 2015 — A material might melt or snap in half. And for engineers, knowing when and why that might happen is crucial information. Now, a researcher has laid out an overarching theory that explains why certain ... full story
• Spintronics;
  Physics;
  Spintronics Research;
  Thermodynamics

  Clusters of Aluminum Metal Atoms Become Superconductive at Surprisingly High Temperatures

  Feb. 25, 2015 — Clusters of atoms known as 'superatoms' represent an entirely new family of superconductors -- one that appears to work at temperatures well above standard ... full story
• Quantum Physics;
  Physics;
  Big Bang;
  Cosmology
  

  Physicists Offer a Solution to the Puzzle of the Origin of Matter in the Universe

  Feb. 25, 2015 — Most of the laws of nature treat particles and antiparticles equally, but stars and planets are made of particles, or matter, and not antiparticles, or antimatter. That asymmetry, which favors matter ... full story
• Graphene;
  Spintronics;
  Physics;
  Quantum Physics
  

  Bending a Highly Energetic Electron Beam With Crystal

  Feb. 25, 2015 — Scientists have demonstrated that a bent silicon crystal can bend the paths of focused, very energetic electron beams much more than magnets used today. The method could be of interest for particle ... full story
• Spintronics;
  Solar Energy;
  Energy and the Environment;
  Renewable Energy
  

  Magnetic Nanoparticles Enhance Performance of Solar Cells

  Feb. 25, 2015 — Magnetic nanoparticles can increase the performance of solar cells made from polymers -- provided the mix is right. Adding about one per cent of such nanoparticles by weight makes the solar cells ... full story
• Optics;
  Spintronics;
  Inorganic Chemistry;
  Chemistry
  

  Spin Laser: Rapid Data Transfer Thanks to Quantum Physics

  Feb. 25, 2015 — Engineers have developed a new concept for accelerating data transfer in server farms. To this end, the team has applied a quantum-mechanical variable, i.e. the spin. Researchers are optimizing the ... full story
• Nanotechnology;
  Spintronics;
  Materials Science;
  Physics
  

  Ultra-Thin Nanowires Can Trap Electron 'Twisters' That Disrupt Superconductors

  Feb. 24, 2015 — Superconductor materials are prized for their ability to carry an electric current without resistance, a valuable trait crippled or lost when electrons swirl into tiny tornado-like formations called ... full story
• Optics;
  Nanotechnology;
  Microarrays;
  Physics
  

  Optical Nanoantennas Set the Stage for a NEMS Lab-on-a-Chip Revolution

  Feb. 24, 2015 — Newly developed tiny antennas, likened to spotlights on the nanoscale, offer the potential to measure food safety, identify pollutants in the air and even quickly diagnose and treat cancer, according ... full story
• Physics;
  Spintronics;
  Materials Science;
  Inorganic Chemistry
  

  Simulating Superconducting Materials With Ultracold Atoms

  Feb. 23, 2015 — Physicists have used ultracold lithium atoms to create a state of matter that may help solve some of the mysteries of high-temperature ... full story
• Spintronics;
  Inorganic Chemistry;
  Chemistry;
  Organic Chemistry
  

  Stretch and Relax: Losing One Electron Switches Magnetism on in Dichromium

  Feb. 23, 2015 — Scientists have provided the first direct experimental insight into the secret quantum life of dichromium. Whereas in its normal state the 12 valence electrons form a strong multiple bond between the ... full story
• Optics;
  Physics;
  Medical Technology;
  Telecommunications
  

  Frequency Combs in Molecular Fingerprint Region

  Feb. 23, 2015 — Silicon nanowire optical waveguides dramatically broaden mid-infrared frequency comb spectra, scientists report. Frequency combs are commercially available in the visible and near-infrared spectral ... full story
• Quantum Physics;
  Physics;
  Engineering;
  Spintronics
  

  Quantum Many-Body Systems on the Way Back to Equilibrium

  Feb. 23, 2015 — Advances in experimental and theoretical physics enable a deeper understanding of the dynamics and properties of quantum many-body ... full story
• Materials Science;
  Physics;
  Engineering and Construction;
  Civil Engineering

  SuperSTEM Microscope Sees Single Atoms

  Feb. 20, 2015 — A new super powerful electron microscope that can pinpoint the position of single atoms, and will help scientists push boundaries even further, in fields such as advanced materials, healthcare and ... full story
• Graphene;
  Spintronics;
  Spintronics Research;
  Materials Science
  

  New Technique for Making Graphene Competitor, Molybdenum Disulfide

  Feb. 19, 2015 — Researchers have made an advance in manufacturing molybdenum disulphide, a 2-D material that could compete with graphene for replacing silicon in next-generation electronics. By growing flakes of the ... full story
• Chemistry;
  Inorganic Chemistry;
  Physics;
  Materials Science
  

  Direct Observation of Bond Formations

  Feb. 19, 2015 — Direct "observation" of the bond making, through a chemical reaction, has been longstanding dream for chemists. However, the distance between atoms is very small, at about 100 picometer, ... full story
• Physics;
  Quantum Physics;
  Astrophysics;
  Nuclear Energy

  Higgs Mode in Superconducting Materials: Tabletop Technique for Examining Physics' Most Celebrated Missing Link

  Feb. 19, 2015 — The Nobel Prize-winning discovery of the Higgs boson -- the 'God particle' believed responsible for all the mass in the universe -- took place in 2012 at CERN's Large Hadron Collider. ... full story
• Thermodynamics;
  Nanotechnology;
  Physics;
  Optics
  

  Shape-Shifting Nanorod Ensembles Release Heat Differently

  Feb. 19, 2015 — Researchers have revealed previously unobserved behaviors in nanrods that suggest new rules for the behavior of nanorod ensembles and new insights into how to increase heat-transfer efficiency in a ... full story
• Dark Matter;
  Quantum Physics;
  Astrophysics;
  Sun
  

  Searching for Signs of a Force from the 'Dark Side' in Particle Collisions

  Feb. 19, 2015 — Scientists searching for signs of elusive “dark photons” as an explanation for an anomaly in a groundbreaking physics experiment have nearly ruled out their ... full story

Friday, February 27, 2015

• Quantum radar to detect objects which are invisible to conventional systems

Thursday, February 26, 2015

• Top-precision optical atomic clock starts ticking
• New research predicts when, how materials will act

Wednesday, February 25, 2015

• Clusters of aluminum metal atoms become superconductive at surprisingly high temperatures
• Physicists offer a solution to the puzzle of the origin of matter in the universe
• Bending a highly energetic electron beam with crystal
• Magnetic nanoparticles enhance performance of solar cells
• Spin laser: Rapid data transfer thanks to quantum physics

Tuesday, February 24, 2015

• Ultra-thin nanowires can trap electron 'twisters' that disrupt superconductors
• Optical nanoantennas set the stage for a NEMS lab-on-a-chip revolution

Monday, February 23, 2015

• Simulating superconducting materials with ultracold atoms
• Stretch and relax: Losing one electron switches magnetism on in dichromium
• Frequency combs in molecular fingerprint region
• Quantum many-body systems on the way back to equilibrium

Friday, February 20, 2015

• SuperSTEM microscope sees single atoms

Thursday, February 19, 2015

• New technique for making graphene competitor, molybdenum disulfide
• Direct observation of bond formations
• Higgs mode in superconducting materials: Tabletop technique for examining physics' most celebrated missing link
• Shape-shifting nanorod ensembles release heat differently
• Searching for signs of a force from the 'dark side' in particle collisions

Wednesday, February 18, 2015

• Cheap solar cells made from shrimp shells
• Getting a grip on exotic atomic nuclei
• Gear technology helps lower cost of wave energy farming
• Igniting the air for atmospheric research

Tuesday, February 17, 2015

• Building a more versatile frequency comb: Newly developed frequency combs can operate at higher power
• Insight into inner magnetic layers
• Novel solid-state nanomaterial platform enables terahertz photonics

Monday, February 16, 2015

• Interaction between light and sound in nanoscale waveguide
• Controlling car pollution at the quantum level
• Half spheres for molecular circuits

Saturday, February 14, 2015

• The future of electronics, now in 2-D
• What’s new for LHC Run II

Friday, February 13, 2015

• How iron feels the heat
• Distortions glimpsed in atomic structure of materials
• Seeing through sparklers: What happens to heat-treated diamonds

Thursday, February 12, 2015

• Gold nanotubes launch a three-pronged attack on cancer cells
• Exotic states materialize with supercomputers
• Explaining 30-year-old 'hidden order' physics mystery
• Weird 'strings' attached to future high temperature superconductivity

Wednesday, February 11, 2015

• Bacterial armor holds clues for self-assembling nanostructures
• Novel high-power microwave generator
• Wanted: The faces of the chemical crowd
• CERN experiment brings precision to a cornerstone of particle physics
• Scientists take first X-ray portraits of living bacteria
• Smashing polarized protons to uncover spin and other secrets

Monday, February 9, 2015

• New design tool for metamaterials
• On quantum scales, there are many second laws of thermodynamics
• A centimeter of time: Cool clocks pave the way to new measurements of Earth
• In the quantum world, the future affects the past: Hindsight and foresight together more accurately 'predict' a quantum system’s state

Friday, February 6, 2015

• Nanovectors combine cancer imaging and therapy
• Physicists working to understand how and why matter came about

Thursday, February 5, 2015

• How oxygen is like kryptonite to titanium
• Cesium atoms shaken, not stirred, to create elusive excitation in superfluid
• The power of light-matter coupling

Wednesday, February 4, 2015

• X-ray pulses uncover free nanoparticles for the first time in 3-D

Tuesday, February 3, 2015

• One-atom-thin silicon transistors hold promise for super-fast computing
• Rediscovering spontaneous light emission
• Physicists observe motion of skyrmions
• Josephson junctions generated in atomic-layered superconductors

Monday, February 2, 2015

• Five ways to put tiny targets in front of an x-ray laser
• Computer chips: Engineers use disorder to control light on the nanoscale
• Winding borders may enhance graphene
• Graphene displays clear prospects for flexible electronics
• Microscopic monitoring may yield big advances in production of consumer products, pharmaceuticals

Friday, January 30, 2015

• Evidence mounts for quantum criticality theory
• New method allows for greater variation in band gap tunability

Thursday, January 29, 2015

• Crystal light: New family of light-converting materials points to cheaper, more efficient solar power and LEDs
• Generating Mobius strips of light
• Nanomedicines of the future will build on quantum chemistry
• Could a new proposed particle help to detect Dark Matter?

Wednesday, January 28, 2015

• Spiky 'hedgehog particles' for safer paints, fewer VOC emissions
• Demystifying nanocrystal solar cells
• Researchers use sound to slow down, speed up, and block light
• Nanoscale mirrored cavities amplify, connect quantum memories

Tuesday, January 27, 2015

• Researchers tune friction in ionic solids at the nanoscale
• New pathway to valleytronics: Femtosecond laser used to manipulate valley excitons
• The laser pulse that gets shorter all by itself

Monday, January 26, 2015

• Researchers make magnetic graphene
• Visualizing interacting electrons in a molecule
• Entanglement on a chip: Breakthrough promises secure communications and faster computers

Friday, January 23, 2015

• Infrared imaging technique operates at high temperatures
• Cherenkov emissions provide investigators real-time tool for quality assurance in radiation therapy

Thursday, January 22, 2015

• Scientists set quantum speed limit
• Exotic, gigantic molecules fit inside each other like Russian nesting dolls
• Wild west physics: Bridging the gap between the study of 'outer space' and 'inner space'
• Is glass a true solid? New research suggests it is

Wednesday, January 21, 2015

• Graphene brings quantum effects to electronic circuits
• Individual protons and neutrons in atomic nuclei do not behave according to predictions
• New method to generate arbitrary optical pulses
• Nano-beaker offers insight into the condensation of atoms

Tuesday, January 20, 2015

• Graphene enables all-electrical control of energy flow from light emitters
• New signal amplification process set to transform communications, imaging, computing
• Atoms can be in two places at the same time
• A contractile gel that stores light energy
• Making waves with lasers could enhance solar cell efficiency

Monday, January 19, 2015

• New laser could upgrade the images in tomorrow's technology
• Self-destructive effects of magnetically-doped ferromagnetic topological insulators
• New composite protects from corrosion from high mechanical stress

Friday, January 16, 2015

• Solving an organic semiconductor mystery

Thursday, January 15, 2015

• Shining a light on quantum dots measurement

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