Physics News

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• Optics;
  Physics;
  Inorganic Chemistry;
  Graphene
  

  Researchers Use Sound to Slow Down, Speed Up, and Block Light

  Jan. 28, 2015 — How do you make an optical fiber transmit light only one way? Researchers have experimentally demonstrated, for the first time, the phenomenon of Brillouin Scattering Induced Transparency (BSIT), ... full story
• Spintronics;
  Spintronics Research;
  Physics;
  Quantum Computers
  

  Nanoscale Mirrored Cavities Amplify, Connect Quantum Memories

  Jan. 28, 2015 — Constructing tiny "mirrors" to trap light increases the efficiency with which photons can pick up and transmit information about electronic spin states -- which is essential for scaling up ... full story
• Physics;
  Chemistry;
  Energy Technology;
  Nature of Water
  

  Researchers Tune Friction in Ionic Solids at the Nanoscale

  Jan. 27, 2015 — New experiments have uncovered a way of controlling friction on ionic surfaces at the nanoscale using electrical stimulation and ambient water ... full story
• Spintronics;
  Spintronics Research;
  Physics;
  Graphene
  

  New Pathway to Valleytronics: Femtosecond Laser Used to Manipulate Valley Excitons

  Jan. 27, 2015 — Researchers have uncovered a promising new pathway to valleytronics, a potential quantum computing technology in which information is coded based on the wavelike motion of electrons moving through ... full story
• Optics;
  Physics;
  Medical Technology;
  Detectors
  

  The Laser Pulse That Gets Shorter All by Itself

  Jan. 27, 2015 — A new method of creating ultra short laser pulses has been created: Just by sending a pulse through a cleverly designed fiber, it can be compressed by a factor of ... full story
• Graphene;
  Spintronics;
  Spintronics Research;
  Materials Science
  

  Researchers Make Magnetic Graphene

  Jan. 26, 2015 — Graphene has many desirable properties. Magnetism alas is not one of them. Magnetism can be induced in graphene by doping it with magnetic impurities, but this tends to disrupt graphene's ... full story
• Graphene;
  Spintronics;
  Chemistry;
  Physics
  

  Visualizing Interacting Electrons in a Molecule

  Jan. 26, 2015 — Scientists have succeeded in directly imaging how electrons interact within a single molecule. Understanding this kind of electronic effects in organic molecules is crucial for their use in ... full story
• Optics;
  Computer Science;
  Microarrays;
  Telecommunications
  

  Entanglement on a Chip: Breakthrough Promises Secure Communications and Faster Computers

  Jan. 26, 2015 — A team of scientists has developed, for the first time, a microscopic component that is small enough to fit onto a standard silicon chip that can generate a continuous supply of entangled ... full story
• Medical Technology;
  Physics;
  Aviation;
  Optics

  Infrared Imaging Technique Operates at High Temperatures

  Jan. 23, 2015 — A research team took advantage of superlattice architecture and new materials to develop a detector that does not require low temperatures to ... full story
• Gene Therapy;
  Optics;
  Medical Technology;
  Medical Imaging

  Cherenkov Emissions Provide Investigators Real-Time Tool for Quality Assurance in Radiation Therapy

  Jan. 23, 2015 — Using a simple camera and water tank, investigators demonstrated that induced Cherenkov light can be imaged and used to confirm that the complex spatial dose distribution imparted in dynamic ... full story
• Physics;
  Quantum Computers;
  Quantum Physics;
  Quantum Computing
  

  Scientists Set Quantum Speed Limit

  Jan. 22, 2015 — The flip side of Heisenberg's uncertainty principle, the energy time uncertainty principle, establishes a speed limit for transitions between two states. Physical chemists have now proved this ... full story
• Chemistry;
  Physics;
  Organic Chemistry;
  Nature of Water
  

  Exotic, Gigantic Molecules Fit Inside Each Other Like Russian Nesting Dolls

  Jan. 22, 2015 — Scientists have experimentally observed for the first time a phenomenon in ultracold, three-atom molecules predicted by Russian theoretical physicist Vitaly Efimov in ... full story
• Quantum Physics;
  Physics;
  Astrophysics;
  Dark Matter
  

  Wild West Physics: Bridging the Gap Between the Study of 'Outer Space' and 'Inner Space'

  Jan. 22, 2015 — The next frontier in physics may require teeny-tiny answers to big questions, and vice versa. Call it macro-micro physics: the study of the huge paired with the study of the very, very ... full story
• Nature of Water;
  Physics;
  Acoustics;
  Electronics
  

  Is Glass a True Solid? New Research Suggests It Is

  Jan. 22, 2015 — Does glass ever stop flowing? Researchers have combined computer simulation and information theory, originally invented for telephone communication and cryptography, to answer this puzzling ... full story
• Spintronics;
  Spintronics Research;
  Graphene;
  Physics
  

  Graphene Brings Quantum Effects to Electronic Circuits

  Jan. 21, 2015 — Scientists have revealed a superfluid phase in ultra-low temperature 2D materials, creating the potential for electronic devices which dissipate very little ... full story
• Physics;
  Quantum Physics;
  Weapons Technology;
  Nuclear Energy
  

  Individual Protons and Neutrons in Atomic Nuclei Do Not Behave According to Predictions

  Jan. 21, 2015 — Individual protons and neutrons in atomic nuclei turn out not to behave according to the predictions made by existing theoretical models. This surprising conclusion, reached by an international team ... full story
• Optics;
  Physics;
  Telecommunications;
  Materials Science
  

  New Method to Generate Arbitrary Optical Pulses

  Jan. 21, 2015 — Scientists have developed a new technique to generate more powerful, more energy efficient and low-cost pulsed lasers. The technique has potential applications in a number of fields that use pulsed ... full story
• Physics;
  Quantum Physics;
  Chemistry;
  Nanotechnology
  

  Nano-Beaker Offers Insight Into the Condensation of Atoms

  Jan. 21, 2015 — Physicists have succeeded in mapping the condensation of individual atoms, or rather their transition from a gaseous state to another state, using a new method.The team was able to monitor for the ... full story
• Optics;
  Graphene;
  Energy Technology;
  Spintronics
  

  Graphene Enables All-Electrical Control of Energy Flow from Light Emitters

  Jan. 20, 2015 — Scientists have now demonstrated active, in situ electrical control of the energy flow from erbium ions into photons and plasmons. The experiment was implemented by placing the erbium emitters a few ... full story
• Spintronics Research;
  Spintronics;
  Acoustics;
  Technology
  

  New Signal Amplification Process Set to Transform Communications, Imaging, Computing

  Jan. 20, 2015 — A new signal amplification process is now poised to fuel new generations of electrical and photonic devices -- transforming the fields of communications, imaging and ... full story

Wednesday, January 28, 2015

• 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
• Rice-sized laser, powered one electron at a time, bodes well for quantum computing
• Physicists detect 'charge instability' across all flavors of copper-based superconductors
• Physicists observe light-matter interaction of two atoms for the first time
• Improved interface for a quantum internet

Wednesday, January 14, 2015

• Race of the electrons: Laser pulses can be used to track the motion of electrons in metals with attosecond precision
• Laser-induced graphene 'super' for electronics: Flexible, 3-D supercapacitors tested
• A new step towards using graphene in electronic applications

Tuesday, January 13, 2015

• Decoding the gravitational evolution of dark matter halos

Monday, January 12, 2015

• Wonder material silicene still stands just out of reach
• Physicist makes the case for studying the strong nuclear force
• New superconducting hybrid crystals
• Water, water, everywhere: Controlling the properties of nanomaterials
• Solar cell polymers with multiplied electrical output
• From the bottom up: Manipulating nanoribbons at the molecular level

Friday, January 9, 2015

• Toward quantum chips: Packing single-photon detectors on an optical chip is crucial for quantum-computational circuits
• From the lab to your digital device, quantum dots have made quantum leaps

Thursday, January 8, 2015

• Quantum optical hard drive breakthrough
• Magic numbers of quantum matter revealed by cold atoms

Wednesday, January 7, 2015

• Shedding light on why blue LEDS are so tricky to make
• New light shed on electron spin flips
• Doing more with less: Steering a quantum path to improved internet security

Tuesday, January 6, 2015

• 'Iron Sun' is not a rock band, but a key to how stars transmit energy

Monday, January 5, 2015

• Electromagnetic waves linked to particle fallout in Earth's atmosphere, new study finds
• Acoustic levitation made simple
• Atoms queue up for quantum computer networks

Friday, January 2, 2015

• Quantum channel made of light
• Time to reactivate nuclear energy in Mexico?

Tuesday, December 30, 2014

• Neutrinos can deliver not only full-on hits but also 'glancing blows'

Monday, December 29, 2014

• Microscopy reveals how atom-high steps impede oxidation of metal surfaces
• New half-light half-matter quantum particles created
• A qubit candidate shines brighter

Tuesday, December 23, 2014

• How electrons split: New evidence of exotic behaviors
• Hunt for Big Bang particles offering clues to the origin of the universe

Monday, December 22, 2014

• Graphene 'cut and paste' with microwaves
• Hands on: Crafting ultrathin color coatings
• Universality of charge order in cuprate superconductors
• Piezoelectricity in a 2-D semiconductor: Piezoelectricity in molybdenum disulfide holds promise for future MEMS

Friday, December 19, 2014

• Quantum world without queues could lead to better solar cells
• Quantum physics just got less complicated: Wave-particle duality and quantum uncertainty are same thing

Thursday, December 18, 2014

• Glimpsing pathway of sunlight to electricity
• Physicists characterize electronic, magnetic structure in transition metal oxides
• Creation of 'rocker' protein opens way for new smart molecules in medicine, other fields
• Revealing the quantum geometry of the graphene lattice
• Crown ethers flatten in graphene for strong, specific binding
• Choreography of an electron pair

Wednesday, December 17, 2014

• Ultrafast imaging of complex systems in 3-D at near atomic resolution nears
• Microscopy pencils patterns in polymers at the nanoscale

Tuesday, December 16, 2014

• The simplest element: Turning hydrogen into 'graphene'
• Scientists trace nanoparticles from plants to caterpillars: Are nanoparticles getting in our food?
• Exact solution to model Big Bang and quark gluon plasma
• Researchers generate tunable photon-pair spectrum using room-temperature quantum optics silicon chip
• Is the Higgs Boson a piece of the matter-antimatter puzzle?

Monday, December 15, 2014

• Mathematicians prove the Umbral Moonshine Conjecture
• Control of shape of light particles opens the way to 'quantum internet'

Thursday, December 11, 2014

• Scientists measure speedy electrons in silicon
• Researchers detect possible signal from dark matter
• Stacking two-dimensional materials may lower cost of semiconductor devices

Wednesday, December 10, 2014

• New way to plug 'leaky' light cavities demonstrated
• Physicists explain puzzling particle collisions
• Theory details how 'hot' monomers affect thin-film formation
• Where are the helium atoms in the molecule? As in a cloud
• Defects are perfect in laser-induced graphene
• Scientists resolve spin puzzle

Tuesday, December 9, 2014

• New technique could harvest more of the sun's energy
• Nanoscale resistors for quantum devices
• Composite materials can be designed in a supercomputer 'virtual lab'
• Major milestone in development of interband cascade lasers

Monday, December 8, 2014

• World record for compact particle accelerator: Researchers ramp up energy of laser-plasma 'tabletop' accelerator
• High photosensitivity 2D-few-layered molybdenum diselenide phototransistors

Friday, December 5, 2014

• Nanoparticle cluster manufacturing technique using DNA binding protein developed
• Ultrafast complex molecular simulations by ‘cutting up molecules’
• 45-year physics mystery shows a path to quantum transistors

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