#Ostendo Technologies chip to bring holograms to smartphones Ostendo chip that can produce a hologram Virtual reality won t require strapping a bulky contraption to your head in the future.
and then suddenly seeing life-size, 3-D images of people and furniture. Or look down at a smartwatch
Dr. El-Ghoroury, who in 1998 sold Commquest Technologies, a mobile chipset company, to#International business machines#Corp. IBM for about $250 million in cash and stock.
in part of the value of virtual reality after he accidentally tried to set down a real world object on a virtual table
while testing the Oculus Rift, forgetting for a moment that the table didn t exist in the real world,
or tables that can project hologram-like images. So what happens in a world where 3-D
Malinow, who holds the Shiley Endowed Chair in Alzheimer s disease Research in Honor of Dr. Leon Thal,
Looking a gift horse in the mouth In response to such worries, the American Farm Bureau,
. according to data presented this past week at the NCWIT summit for Women in IT by Ed Lazowska, the Bill & Melinda Gates Chair in Computer science and Engineering at the University of Washington,
we can take the idea of in-theater robots completely off the table, Bello said.
In its broad-beam form, microwaves become safe for birds and insects to fly through. Microwaves also have an efficiency advantage.
whether it identifying the pills left in the back of the medicine cabinet or figuring out whether the fruit at the farmer market is ripe.
the Bureau of Labor Statistics said this week. That was down from 66.2 percent the previous year
The bureau reported that 51 percent of the high school graduates who did not go on to college had jobs by October
partly because they come from the bureau household survey, in which 60,000 households are asked each month about the employment status of all members of the household who are 16 years of age or older.
which was published not until this week as the bureau sought to make sure it had made appropriate adjustments for revised population estimates.
The bureau said the estimated 65.9 percent figure for high school graduates who went on to college could be off by as much as 2. 4 percentage points in either direction.
and credit cards and its stock is monitored constantly. The machine sends out an email when it is running low on stock.
When Hall first saw the wireless bulb, she immediately thought of medical technology seeing that devices transplanted beneath the skin could be charged non-intrusively.
If you had to put a beam somewhere for structural reasons that was going to mess up the sound,
and stocks without brokers, executed and recorded across hundreds of servers at all corners of the earth.
These include allowing users to create new asset classes, such as stocks or other ownership certificates,
This approach has simplified greatly the collection of nickel from laterites as per the following table:
Atlas copco says that risks of working close to unstable and hazardous benches close to the wall are well known
A cradle is included also which can be inserted with a computer tablet that can be set to flash a bright signal when danger approaches.
sailors aboard the Ponce can increase the strength of the laser's highly concentrated beam,
the beam can be turned up higher, making it capable of destroying the threat altogether. In recent tests, Laws successfully hit targets aboard a small boat that was speeding toward the Navy ship.
and certified lumber was used throughout. Over a year, the house is expected to generate a 2. 6-megawatt-hour surplus (compared to the average home consumption of 13.3 megawatts.
essentially creating"living materials"that can be integrated into everyday objects and devices, from solar panels to adjustable furniture,
The possibilities are endless furniture could even be built out of these"living materials.""Devices constructed from these materials could adjust to their environments in ways that traditional nonliving materials cannot."
between the two beams were detected using interference. The differencein optical path length was due to the tiny difference of the thickness of the glass.
When both beams hit a flat part of the surface, they traveled the same distance and created a corresponding interference pattern.
There was almost no room left for furniture. I thought there was an opportunity to clean up this mess,
and worked with Toronto's Julia West Home to design beautiful furniture that turned your computer into an entertainment center, much like those console Hi-fi systems from the'50s.
Now I can spend all day on the sofa in front of the TV and nobody can complain,
Washington, is known best for its annual chainsaw carving festival, its Bigfoot sightings and that time when a rogue circus elephant named Tusko ran amok through town in 1922.
For this reason, they only looked at plots where the forest was more than 200 years old parts of the forest spared from the axe
so the new money is a considerable addition to its coffers. At first, both bodies will receive assistance to ensure sound financial management,
Science is a big winner in the government s massive#10.3-trillion economic stimulus package, approved by the cabinet on 15 january.
As such, a polycrystal made of nanotwin domains is a bit like a slab of plywood where the wood grain reverses direction in each successive layer.
referring to the chunk of platinum-iridium kept at the International Bureau of Weights and Measures near Paris, France,
#Electron beams set nanostructures aglow Put a piece of quartz under an electron microscope and it will shine an icy blue.
But the light#emitted after a beam of electrons kicks a material s own electrons into a higher energy state#is faint and diffuse,
because it is triggered by a narrow beam of electrons, it promises the same nanometre scale resolution that those systems can achieve."
#Circular RNAS throw genetics for a loop Behold the latest curio in the cabinet of RNA oddities:
The team then looked at mice with tumours and saw that the peptide-tagged, fluorescent nanobeads accumulated in the tumours.
in which X-ray beams are fired at crystals of the compound, and the structure is deduced from how the beams scatter.
The teams focused on two receptors, called 1b and 2b. They found that the molecules had very similar structures in the areas where serotonin docks.
the display beams different images in different directions, so that a person's left and right eyes see slightly different images#a requirement for the brain to process an image as 3d.
Lockheed has proven technologies and the most nodule-bed data. Polymetallic nodules form over thousands of years on the sea floor, through processes that are still not fully understood;
A microscope sends sheets of light rather than a conventional beam through the fish's brain,
and Flora (CITES) took the unprecedented step of granting protection to sharks and various species of tropical timber tree in their final vote today.
Conservationists see the move into timber as equally significant, with several tropical hardwoods, including ebonies and rosewoods, added to appendix II."
so what new tricks do these fibers bring to the table? Flexible: these fiber based neural implants are much more flexible than the current industry standard, multielectrode arrays and hooked eedlestyle stimulators.
added chemicals to lab-grown neurons to spur them to form stronger connections and saw that at rest,
Chen saw Agrp activity begin to plummet, and POMC activity correspondingly begin to rise. ur prediction was that
said Tom Maniatis, Phd, the Isidore S. Edelman Professor, chair of biochemistry and molecular biophysics,
#Wearable device Changes Your Mood Wake up on the wrong side of the bed? Got a case of the Tuesdays?
a desk lamp that provides an Internet connection when the light is on. Bring The nternet Of Thingsinto Your Homeesearchers have called it i-Fi?
The verdict (in Dutch) relies heavily on quotes, tables, and graphics from reports by the Intergovernmental panel on climate change and other international bodies.
What looks like a row of drifting gumdrops could hold a wealth of information for both clinical researchers and bench scientists.
The team's findings provide the first direct evidence that crystal cocoons formed by impacts might have been radiation-proof cradles for early life (International Journal of Astrobiology doi. org/tcs.
even something as simple as putting a Band aid down on a table, is difficult in space,
and saw a tendril of increased electron density curling away from the north pole indicating that a plume of plasma was veering off towards the sun. At the same time three of NASA's THEMIS spacecraft
About a dozen robotic landers and rovers are on the drawing board for launch between now
#Boxy Cubesats get a propulsion boost in new space race Tiny liquid volcanoes that spray beams of charged particles could make space history next year.
so that it is strong enough to pull away ions in a steady beam (see below). The process is self-sustaining.
#3d printed rocket engine gets its first fiery test Thought current 3d printing was only good for creating cute plastic versions of teapot lids key rings and other curios?
Choreographed high-power lasers or electron beams can fuse and sculpt metal powders into high-performance machine parts.
These particles are separated into two beams with magnets (Physical Review Letters doi. org/m2n. The team call their device an antimatter gun
Despite their short duration the beams contain a quadrillion positrons per cubic centimetre says Sarri meaning they are comparable in density to the ones made at CERN.
and the tabletop method makes searing-hot beams of particles moving at near light speed. As an alternative says Sarri the beams can be used to mimic the way particle fountains from black holes
and pulsars shoot through and interact with gases in the interstellar medium creating mini versions of these enigmatic astrophysical phenomena in the lab for the first time.
#Curiosity's discoveries hint at life's cradle on Mars NASA's Curiosity rover has found what it was looking for in its very first taste of Martian rock much to everyone's surprise.
This article appeared in print under the headline Rover finds hint of life's cradle on Mar l
those beams will have areas of overlap and interference.""Beaming down Radio transmission is the most common way to communicate between satellites and Earth.
the Fariborz Maseeh Chair in Emerging Technology at MIT, who also co-leads the MIT Innovation Initiative.
Using the components in 20 million TVS is projected to save 600 million kilowatt-hours of electricity per year worldwide enough electricity to power 50,000 average U s. homes. ee been able to show, cradle to grave,
and objective performance metrics Sociometric can pinpoint areas where management can build more productive offices in ways as surprising as providing larger lunch tables or moving coffee stations to increase interaction.
Longer lunch tables better outcomesover the years Sociometric has had some surprising findings. Waber points to his firm s work with a major online travel company.
But they saw that in the cafeteria certain people only sat with three other people (at four-seat tables)
while others sat with 11 people (at 12-seat tables). Those who sat at larger tables were 36 percent more productive during the week.
When the company initiated layoffs during the study the employees who sat at larger tables also had 30 percent lower stress levels than those who sat at smaller tables.
The idea is that these employees Waber says had been able to accumulate larger networks knew what others were working on
Surprisingly after this finding went public some technology firms began installing larger cafeteria tables Waber says.
It s crazy that something as trivial as physical space as the size of the lunch table could affect productivity Waber says.
receiving pacemaker implants in his chest that could intercept aberrant signals from his brain before they reached his muscles.
Typically the interest of this type of emitter is to be able to emit a beam of ions
and not a beam of droplets says Herbert Shea an associate professor in the Microsystems for Space technologies Laboratory at the cole Polytechnique F d rale de Lausanne.
so modifying them for other uses means going back to the drawing board, which can be very expensive.
or check email surreptitiously under the table that can be electrifying force for the enterprise,
if you sat down in a chair at a table, and tried to describe where the front,
left corner of that table was located in physical space. ou say that corner is this far off the floor, this far to the right of my chair,
One application for urban planners involved placing small building models onto a 1/0 Bulb projected table,
which the program casted accurate, digital shadows from the models onto the table. Changing the time on a digital clock changed the direction of the shadows.
The current device prototype is small enough to sit on a table or lab bench but the team is also working on a portable version that is about the size of a small electronic tablet.
But boosting power usually means decreasing beam quality or focus. And the beam never gets intense enough to melt metal.
Now MIT Lincoln Laboratory spinout Teradiode is commercializing a multikilowatt diode laser system that s bright enough to cut
The 4-kilowatt Terablade runs on a novel power-scaling technique developed at MIT that manipulates individual diode laser beams into a single output ray.
This allows for boosting power of a diode laser while preserving a very focused beam. The Terablade has comparable beam quality as compared with traditional manufacturing lasers such as carbon dioxide disk
and fiber says Teradiode cofounder and vice president Robin Huang a former Lincoln Laboratory researcher and Terablade co-inventor.
or incoherent beam combining developed by Huang and former Lincoln Laboratory researcher and Teradiode cofounder Bien Chann who is now the company s vice president and chief technology officer.
An individual diode laser in say a laser pointer can emit a beam in infrared and near-infrared wavelengths that can be focused tightly to a very small spot
Overlapping many similar beams at differing wavelengths however produces a beam that focuses on a small spot making it very intense.
And the number of overlapping beams with differing wavelengths can be very high. In the early 2000s Huang Chann and Lincoln Laboratory colleagues built a few prototype lasers based on WBC technology.
One which reached a power level of 50 watts was a world s record for diode laser brightness at that time Huang says.
which it s designed to do the grating forces the beams into the same direction superimposing them on one another.
or spatial beam combining that joins together the beams of similar wavelengths. As the number of diode lasers increases the beam quality degrades resulting in a large focused spot limiting the beam s intensity.
This means the Terablade outputs a beam roughly 100 times brighter than these scaled-up direct-diode laser models Huang says.
Each Terablade module outputs about 1000 watts and can be scaled to increase power. The company has developed also a commercial Terablade system:
and can be placed on top of a table or mounted underneath a table or desk. Courtesy of Witricity Corp. Full Screen The Witricity technology can charge an electric car with the vehicle parked about a foot above the transmitting pad.
In our case a patient could lie on the bed and while he or she is sleeping our technology could charge the device from a distance Soljacic says.
but it could also be a computer in a locked box under your desk. Any cellphone app online service or big data research team that wants to use your data has to query your data store
Seneviratne uses a technology known as distributed hash tables the technology at the heart of peer-to-peer networks like Bittorrent to distribute the transaction logs among the servers.
But Green saw potential. was interested in working on something that had real technology behind it, she says.
and support even in old age. etting from bench to bedside Throughout the 1990s and early 2000s Herr who lost both legs after a 1982 climbing accident began researching the deficiencies of conventional prostheses
and investment to get from bench to bedside Herr says. Starting a company is one way of enhancing that efficiency.
Apple, H&m, Ikea, and Zara. Online pricing data was crapedusing a harvesting technique that Rigobon and Cavallo first developed for the illion Prices Project,
Evidence from Oregon Health insurance Experiment, were lead author Sarah Taubman of the National Bureau of Economic Research, Heidi Allen of Columbia University School of Social work,
The beam-stabilization system on the space terminal is based on inertial sensors which can be scaled to work even at the most distant planets.
Now imagine rotating the axes of the graph so that the x-axis is parallel to the line.
Similarly i-vectors find new axes for describing the information that characterizes speech sounds in the 120000-dimension space.
Another application is monitoring patients who are at high risk for a clot for example people who have to spend a lot of time in bed recovering from surgery.
And ambiguity is really the central challenge to getting good alignments in highly cluttered scenes like inside a refrigerator or in a drawer.
You can spend your whole Phd programming a robot to find tables and chairs and cups and things like that but there aren t really a lot of general-purpose tools Glover says.
With bigger problems like estimating relationships between objects and their attributes and dealing with things that are somewhat ambiguous we re really not anywhere near where we need to be.
They could assemble into different types of furniture or heavy equipment as needed. And they could swarm into environments hostile or inaccessible to humans
or a desk, on demand, Romanishin says
#Seeing through silicon Scientists at MIT and the University of Texas at Arlington (UTA) have developed a new type of microscopy that can image cells through a silicon wafer,
which works by sending a laser beam through a sample, then splitting the beam into two.
By recombining those two beams and comparing the information carried by each one, the researchers can determine the sample height
and entrepreneurs are getting money to put food on the table. Wee doing good through business.
allowing beams to be guided, funneled, and controlled by voltages applied to the sheet. his poses a new opportunity to send
At one table, Allen Tan, the country director for Cambodia of the Golden West Humanitarian Foundation, held 3-D printed land mine models, decked in bright red, white,
Other cofounders and co-inventors are Anantha Chandrakasan, the Joseph F. and Nancy P. Keithley Professor in Electrical engineering, now chair of CEI technical advisory board;
The magnetic insulator Shi and his team used was yttrium iron garnet grown by laser molecular beam epitaxy in his lab. The researchers placed a single-layer graphene sheet on an atomically smooth layer of yttrium iron garnet.
Joel Yang and Shawn Tan at the A*STAR Institute of Materials Research and Engineering and co-workers used an electron beam to form arrays of approximately 100-nanometer-tall pillars.
allowing the device to project beams of colored light. Michael Mcalpine the lead researcher cautioned that the lens is designed not for actual use for one it requires an external power supply.
These techniques rely on specialized lenses electron beams or lasers-all of which are extremely expensive. Other conventional techniques use mechanical probes
or multiple beams of light allowing them to create a wide variety of nanostructure designs.
Using electron-beam lithography techniques the team carved out an array of inward tapering trenches designed to fit 1 to 3 rows of gold nanoparticles.
Between periodically ordered rows the researchers saw clear evidence of transition state zones regions where the tiny spheres buckle out of alignment
repoopulate is a synthetic stool substitute which Dr. Petrof designed to treat C. difficile infections.
In this instance rather than being used as therapy the synthetic stool was used to examine the impact of nanoparticles on the human gut.
The research showed that the addition of nanosilver reduced metabolic activity in the synthetic stool sample perturbed fatty acids
the Fariborz Maseeh Chair in Emerging Technology at MIT, who also co-leads the MIT Innovation Initiative.
Using the components in 20 million TVS is projected to save 600 million kilowatt-hours of electricity per year worldwide enough electricity to power 50,000 average U s. homes. ee been able to show, cradle to grave,
and obtain a photoionization cross section of a single nickel cluster on the sample surface with 2-nm resolution We have demonstrated a world record in the spatial resolution of chemical imaging using synchrotron x-ray scanning tunneling microscopy said Saw-Wai Hla
This development was facilitated by collaboration between research groups of Yury Gogotsi Phd Distinguished University and Trustee Chair professor in the College of Engineering at Drexel and Jieshan Qiu vice dean for research
Using electron beam lithography she then stamps the pattern onto a polymer matrix and the nanowires are grown by applying electric current through electrodeposition.
which resembles a series of nails protruding from a piece of lumber. One end is held secure to a metal conductor like copper
One of these beams is used then to probe this vibration and generate a light, called coherent anti-Stokes Raman scattering (CARS).
and spectroscopy techniques where beams of high-frequency photons bombard and bounce off a material to reveal elemental structure and composition.
The highly focused electron beams available at CFN revealed individual atom positions as an applied current pushed pristine batteries to an overcharged state.
and Technology (KIST Even with just one charge on the NCA battery we saw changes in the crystalline structure
or cathode and scratched the surface with sandpaper to form a light panel capable of producing a large stable and homogenous emission current with low energy consumption.
Under a strong electric field the cathode emits tight high-speed beams of electrons through its sharp nanotube tips a phenomenon called field emission.
Field emission electron sources catch scientists'attention due to its ability to provide intense electron beams that are about a thousand times denser than conventional thermionic cathode (like filaments in an incandescent light bulb.
which is perpendicular to the axes of the wheels.""By checking the wheels'direction of rotation clockwise
It is exactly the same with the beams of light in the ultra-thin glass fibre.
Typically the interest of this type of emitter is to be able to emit a beam of ions
and not a beam of droplets says Herbert Shea an associate professor in the Microsystems for Space technologies Laboratory at the cole Polytechnique Fdrale de Lausanne.
Tests with the nanotube cathode have produced beam currents a thousand to a million times greater than the one generated with a large pricey laser system.
and expertise for handling intense electron beams one of relatively few labs that can support this project.
When a strong electric field is applied it pulls streams of electrons off the surface of the cathode creating the electron beam.
The electric and magnetic fields of the particle accelerator then organize the electrons into a beam. The tested nanotube cathode requires no laser:
Specifically Yamaguchi and his group used molecular beam epitaxy (MBE) to grow a layer of Inas QDS with a density of 5 x 1011 cm-2 on Gaassb/Gaas (100) substrates.
On each side of the seesaw benches researchers etched an array of holes called photonic crystal cavities.
When the oscillation was strong enough the photons can spill over along the beam from the filled cavity to the empty cavity during each cycle Li said.
said he envisions a stethoscope-like device that a doctor would press across a patient's chest to image the buried palpable structure.
The research was led by postdoctoral researcher Qunyang Li graduate student Xin-Zhou Liu and Robert Carpick professor and chair of the Department of Mechanical engineering and Applied Mechanics in Penn's School of engineering and Applied science.
K. Goodfellow R. Beams C. Chakraborty L. Novotny A n. Vamivakas Integrated nanophotonics based on nanowire plasmons and atomically-thin material Optica Vol. 1 Issue
Using electron-beam evaporation which is a common technique in CMOS processing Zheng deposited a thin layer of aluminum onto a silicon photodetector topped with an ultrathin oxide coating.
Lahti likens the UMASS Amherst team's advance in materials science to the kind of benefits the construction industry saw with prefabricated building units.
Under the guidance of Canada Research Chair in Materials science with Synchrotron radiation Dr. Alexander Moewes University of Saskatchewan researcher Adrian Hunt spent his Phd investigating graphene oxide a cutting-edge material that he hopes will shape the future
a DOE Office of Science User Facility that provides beams of high-intensity x-rays for studies in many areas of science.
what is currently achievable using conventional electron-beam lithography techniques).""On a fundamental level, our work demonstrates electron-beam based manipulation of nanoparticles an order of magnitude larger than previously possible,
using a simple SEM operating at only a fraction of the electron energies of previous work,
what is currently achievable using conventional electron-beam lithography techniques). The team demonstrated that an electron beam from a standard scanning electron microscope (SEM) can be used to deform either individual p-BNA structures
along with a significant thermal contribution, permit sufficient compliance of the pillars to be actuated by electron-beam-induced gradient forces.
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