Physics News

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• Detectors;
  Chemistry;
  Ozone Holes;
  Inorganic Chemistry

  New Sensor Improves the Level of Efficiency in Detecting Ozone

  Apr. 15, 2014 — Researchers have developed a more effective ozone sensor than the ones used so far. The new sensor detects this gas faster and in lower amounts. Ozone is present in the atmosphere and it plays a ... full story
• Spintronics;
  Physics;
  Graphene;
  Quantum Physics
  

  Beam on Target! Cebaf Accelerator Delivered High-Energy Electron Beams

  Apr. 14, 2014 — Late on April 1, the crown jewel of the Department of Energy's Thomas Jefferson National Accelerator Facility sparkled its way into a new era. Following an upgrade of the Continuous Electron ... full story
• Quantum Physics;
  Physics;
  Optics;
  Solar Energy
  

  House Windows That Double as Solar Panels? Shiny Quantum Dots Brighten Future of Solar Cells

  Apr. 14, 2014 — A house window that doubles as a solar panel could be on the horizon, thanks to recent quantum-dot work. Scientists have demonstrated that superior light-emitting properties of quantum dots can be ... full story
• Optics;
  Physics;
  Detectors;
  Technology

  New 'Tunable' Semiconductors Will Allow Better Detectors, Solar Cells

  Apr. 14, 2014 — Researchers have discovered a way to use existing semiconductors to detect a far wider range of light than is now possible, well into the infrared range. The team hopes to use the technology in ... full story
• Materials Science;
  Inorganic Chemistry;
  Physics;
  Chemistry
  

  Novel Technique Opens Door to Better Solar Cells, Superconductors and Hard Drives

  Apr. 14, 2014 — A new invention solves long-standing mystery in the physics of condensed matter and enhances our understanding of interfaces between ... full story
• Optics;
  Telecommunications;
  Physics;
  Graphene
  

  Combs of Light Accelerate Communication

  Apr. 14, 2014 — Miniaturized optical frequency comb sources allow for transmission of data streams of several terabits per second over hundreds of kilometers. The results may contribute to accelerating data ... full story
• Quantum Physics;
  Physics;
  Inorganic Chemistry;
  Nuclear Energy
  

  New Form of Matter: Exotic Hadron With Two Quarks, Two Anti-Quarks Confirmed

  Apr. 11, 2014 — Physicists have confirmed the existence of exotic hadrons -- a type of matter that cannot be classified within the traditional quark model. "We've confirmed the unambiguous observation of a ... full story
• Quantum Physics;
  Physics;
  Detectors;
  Nuclear Energy
  

  Search for Elusive Dark Matter: Looking for Traces by Studying Particles With Low Masses and Interaction Rates

  Apr. 11, 2014 — The ongoing search for invisible dark matter is a subject of great interest to physicists. Although dark matter has never been seen directly, it is thought to be six times more prevalent in the ... full story
• Optics;
  Materials Science;
  Nanotechnology;
  Physics
  

  Nanostructures With Applications in Infrared and Terahertz Ranges

  Apr. 11, 2014 — Scientists have created a compound semiconductor of nearly perfect quality with embedded nanostructures containing ordered lines of atoms that can manipulate light energy in the mid-infrared range. ... full story
• Optics;
  Nanotechnology;
  Materials Science;
  Physics
  

  A Modern Twist on Young's Slits

  Apr. 10, 2014 — A landmark experiment on wave interference from the early 1800s is revisited using gold nanoparticles. In the eighteenth century, scientists faced a conundrum: is light a wave or a particle? One of ... full story
• Quantum Computers;
  Quantum Physics;
  Physics;
  Spintronics Research
  

  Researchers Bolster Development of Programmable Quantum Computers

  Apr. 10, 2014 — Scientists have performed a proof-of-concept experiment that will aid the future development of programmable quantum computers. In a new study, the researchers describe an experiment that was ... full story
• Optics;
  Spintronics Research;
  Spintronics;
  Inorganic Chemistry
  

  Magnetization Can Surf on the Top of a Laser-Induced Sound Wave

  Apr. 10, 2014 — An effective coupling between magnetism and light can be mediated by sound. This newly discovered phenomenon could be important for recording data on a magnetic device with the help of ... full story
• Quantum Physics;
  Nature of Water;
  Physics;
  Materials Science
  

  Emerging Research Suggests a New Paradigm for 'Unconventional Superconductors'

  Apr. 9, 2014 — Scientists have reported the first experimental observation of the quantum critical point in the extensively studied 'unconventional superconductor' TiSe2, finding that it does not reside ... full story
• Quantum Physics;
  Physics;
  Inorganic Chemistry;
  Albert Einstein
  

  One Kind of Supersymmetry Shown to Emerge Naturally: Unique Phenomenon in Condensed Matter System

  Apr. 9, 2014 — Physicists show that a topological superconductor is conducive to displaying phenomena of emergent supersymmetry. Sought after in the realm of subatomic particles by physicists for several decades, ... full story
• Quantum Computers;
  Computers and Internet;
  Physics;
  Quantum Computing
  

  Scalable, Universal Quantum Computer? Quantum Information Processed With System Comprising Optical Photon and Trapped Atom

  Apr. 9, 2014 — When it comes to recognizing complex patterns or to decoding encrypted messages, conventional computers reach their limits. A whole new quality in the communication and processing of data is expected ... full story
• Physics;
  Quantum Computers;
  Graphene;
  Quantum Physics
  

  New 'Switch' Could Power Quantum Computing: Light Lattice Traps Atoms, Builds Networks of Quantum Information Transmitters

  Apr. 9, 2014 — Using a laser to place individual rubidium atoms near the surface of a lattice of light, scientists have developed a new method for connecting particles -- one that could help in the development of ... full story
• Graphene;
  Spintronics;
  Solar Energy;
  Chemistry
  

  Tiny Step Edges, Big Step for Surface Science

  Apr. 9, 2014 — New experiments can explain the behavior of electrons at tiny step edges on titanium oxide surfaces. This is important for solar cell technology and novel, more effective ... full story
• Spintronics;
  Spintronics Research;
  Electronics;
  Technology
  

  Novel Ultra-Fast Electrical Circuits Use Light-Generated Tunneling Currents

  Apr. 9, 2014 — Scientists have successfully designed and fabricated electrical circuits that can operate at hundreds of terahertz frequencies, which is tens of thousands times faster than today’s state-of-the-art ... full story
• Computer Science;
  Spintronics Research;
  Information Technology;
  Computers and Internet
  

  Future Computers That Are Normally Off

  Apr. 8, 2014 — Researchers have broadly envisioned the future of spin-transfer torque magnetoresistive random access memory (STT-MRAM), and they have now described how it will radically alter computer architectures ... full story
• Materials Science;
  Graphene;
  Spintronics;
  Engineering and Construction
  

  Scalable CVD Process for Making 2-D Molybdenum Diselenide

  Apr. 8, 2014 — Nanoengineering researchers have unveiled a potentially scalable method for making one-atom-thick layers of molybdenum diselenide -- a material that is similar to graphene but has better properties ... full story

Tuesday, April 15, 2014

• New sensor improves the level of efficiency in detecting ozone

Monday, April 14, 2014

• Beam on target! Cebaf accelerator delivered high-energy electron beams
• House windows that double as solar panels? Shiny quantum dots brighten future of solar cells
• New 'tunable' semiconductors will allow better detectors, solar cells
• Novel technique opens door to better solar cells, superconductors and hard drives
• Combs of light accelerate communication

Friday, April 11, 2014

• New form of matter: Exotic hadron with two quarks, two anti-quarks confirmed
• Search for elusive dark matter: Looking for traces by studying particles with low masses and interaction rates
• Nanostructures with applications in infrared and terahertz ranges

Thursday, April 10, 2014

• A modern twist on Young's slits
• Researchers bolster development of programmable quantum computers
• Magnetization can surf on the top of a laser-induced sound wave

Wednesday, April 9, 2014

• Emerging research suggests a new paradigm for 'unconventional superconductors'
• One kind of supersymmetry shown to emerge naturally: Unique phenomenon in condensed matter system
• Scalable, universal quantum computer? Quantum information processed with system comprising optical photon and trapped atom
• New 'switch' could power quantum computing: Light lattice traps atoms, builds networks of quantum information transmitters
• Tiny step edges, big step for surface science
• Novel ultra-fast electrical circuits use light-generated tunneling currents

Tuesday, April 8, 2014

• Future computers that are normally off
• Scalable CVD process for making 2-D molybdenum diselenide

Monday, April 7, 2014

• Rebar technique strengthens case for graphene: Hybrid nanotube-graphene material promises to simplify manufacturing

Sunday, April 6, 2014

• Groundbreaking optical device could enhance optical information processing, computers
• Self-assembled silver superlattices create molecular machines with hydrogen-bond 'hinges' and moving 'gears'

Friday, April 4, 2014

• Tracking the transition of early-universe quark soup to matter-as-we-know-it
• To bridge LED green gap, think small ... really small: Nanostructures half a DNA strand-wide show promise for efficient LEDs
• Light-guiding gels provide new avenues for drug detection, delivery

Thursday, April 3, 2014

• Quantum computing: Quantum photon properties revealed in another particle -- the plasmon
• Quantum cryptography for mobile phones
• Fermi data tantalize with new clues to dark matter: Gamma rays from center of Milky Way galaxy
• Pocket-size ultrasonic nebulizer employing a novel nozzle improves inhalers

Wednesday, April 2, 2014

• New insights into quantum dynamics and quantum chaos
• Researchers open path to finding rare, polarized metals
• Strain can alter materials' properties
• Low-cost, highly efficient OLED lighting: Europium complexes emit red light at record efficiency

Tuesday, April 1, 2014

• Carbon nanotubes grow in combustion flames
• Electrical transmission at atomic level: New approach to building signal processing components from individual atoms

Monday, March 31, 2014

• Nanoparticle trapped with laser light temporarily violates second law of thermodynamics
• Breakthrough in creating invisibility cloaks, stealth technology
• Physicists split and collide ultracold atom clouds using steerable 'optical tweezers'

Sunday, March 30, 2014

• Mixing silicon with other materials improves the diversity of nanoscale electronic devices

Friday, March 28, 2014

• Fabricating nanostructures with silk could make clean rooms green rooms
• Rainbow-catching waveguide could revolutionize energy technologies
• Revolutionary solar cells double as lasers

Thursday, March 27, 2014

• Ultra-thin light detectors: Metamaterials and quantum cascade structures combined for first time
• Record quantum entanglement of multiple dimensions: Two Schrödinger cats which could be alive, dead, or in 101 other states simultaneously

Wednesday, March 26, 2014

• Scientists track 3-D nanoscale changes in rechargeable battery material during operation

Tuesday, March 25, 2014

• Strange materials cropping up in condensed matter laboratories

Monday, March 24, 2014

• Exploding stars prove Newton's law of gravity unchanged over cosmic time
• Einstein's 'spooky' theory may lead to ultra-secure Internet
• Kelvin wave seen on quantum 'tornado' for first time
• Hunt for an unidentified electron object
• Plugging the hole in Hawking's black hole theory
• Like being inside a star: Simulating high pressures

Sunday, March 23, 2014

• Experiment opens the door to multi-party quantum communication
• Engineers design 'living materials': Hybrid materials combine bacterial cells with nonliving elements that emit light
• Unavoidable disorder used to build nanolaser
• Spintronics: Could diamonds be a computer's best friend?

Friday, March 21, 2014

• Basketball: The physics of the 3-point shot
• Now even more likely that there are particles smaller than Higgs out there
• Can you drive fast enough to avoid being clocked by speed cameras?
• Making synthetic diamond crystals in plasma reactor

Thursday, March 20, 2014

• Engineering materials for super-efficient nanoelectronics: Potential way to make graphene superconducting
• New control over topological insulator

Wednesday, March 19, 2014

• Best value for top quark's mass: Tevatron and LHC scientists announces first joint result
• Magnetic behavior discovery could advance nuclear fusion
• Thermal conductance can be controlled like waves using nanostructures

Tuesday, March 18, 2014

• NIST chips help BICEP2 telescope find direct evidence of origin of the universe
• New window into quantum physics opened with superconductivity in LEDs
• Bright future for protein nanoprobes
• Innovative quantum computer under scrutiny
• Nanotube composites greatly increase efficiency of next generation of solar cells

Monday, March 17, 2014

• Tremors of the Big Bang: First direct evidence of cosmic inflation

Sunday, March 16, 2014

• Thermal vision: Graphene light detector first to span infrared spectrum

Friday, March 14, 2014

• Big data tackles tiny molecular machines
• Atomically thick metal membranes

Thursday, March 13, 2014

• Nanoscale optical switch breaks miniaturization barrier
• Graphene-metal sandwich: Combining graphene and copper may shrink electronics
• A brake for spinning molecules: Precise control of rotational temperature of molecular ions for lab-based astrochemistry
• Exchange rate behaves like particles in a molecular fluid

Wednesday, March 12, 2014

• 'Ultracold' molecules promising for quantum computing, simulation
• Quantum chaos in ultracold gas discovered
• Material rivaling graphene may be mined out of rocks
• Good vibes for catalytic chemistry: A way to make better catalysts for meds, industry and materials
• Colloidal silicon quantum dots: Synthesis and luminescence tuning from the near-UV to the near-IR range
• First thin films of spin ice reveal cold secrets
• Racing cars on walls would be possible, according to student paper
• Signal control with light frequencies
• Quantum physics secures new cryptography scheme

Tuesday, March 11, 2014

• Acoustic cloaking device hides objects from sound
• Effective thermal camouflage and invisibility device for soldiers created

Monday, March 10, 2014

• Possible evidence for dark matter particle presented at UCLA physics symposium
• Scientists build thinnest-possible LEDs to be stronger, more energy efficient
• Mapping behavior of charges in correlated spin-orbit coupled materials: Electronic disruption prods Mott insulator's conversion to metallic state

Friday, March 7, 2014

• Promising news for producing fuels through artificial photosynthesis

Thursday, March 6, 2014

• Colored diamonds are a superconductor's best friend
• Crystals ripple in response to light: First propagating surface phonon polaritons in a van der Waals crystal
• Engineering team increases power efficiency for future computer processors
• Extraordinary momentum and spin discovered in evanescent light waves

Wednesday, March 5, 2014

• Ultra sensitive detection of radio waves with lasers
• Seeking quantum-ness: D-Wave chip passes rigorous tests

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