Sentences with phrase «magnetic field technology»
But Shi contends that Pi's magnetic field technology is better suited to the phones, tablets, and devices people use every day.
https://www.digitaltrends.com/
Twelve scientific divisions are investigating confinement of high - temperature hydrogen plasmas in magnetic fields, heating of plasmas, plasma diagnostics, magnetic field technology, data acquisition and processing, plasma theory, materials research, plasma - wall interaction, and systems studies.
Not exact matches
The company's mobile payment solution takes a two - pronged approach by combining a near - field communication (NFC) chip with the magnetic secure - transmission technology it acquired from LoopPay to transmit payment information between your device and a point - of - sale terminal.
«The sensors can detect disturbances in the surrounding magnetic field, including the magnetic field above them, with a range extending several metres,» adds research assistant Haibin Gao who is working on the sensor technology as part of Hartmann's team.
Planetary theorist David Stevenson of the California Institute of Technology in Pasadena agrees that the best explanation for the magnetic field data is a deep layer of salty water.
Most wireless power technology research to date has focused on transferring energy through magnetic fields — the so - called inductive approach.
The feat opens up new possibilities in silicon carbide because its nanoscale defects are a leading platform for new technologies that seek to use quantum mechanical properties for quantum information processing, sensing magnetic and electric fields and temperature with nanoscale resolution, and secure communications using light.
Diamonds designed with nitrogen - vacancy (NV) centers that can detect changes in magnetic fields are a powerful tool for biosensing technologies and used in the medical detection and diagnosis of disease.
OLEV receives power wirelessly through the application of the «Shaped Magnetic Field in Resonance (SMFIR)» technology.
Made by Shuhei Miyashita and colleagues at Massachusetts Institute of Technology, a 1.7 - centimetre - long origami robot made of plastic and containing a magnet can be «programmed» by an external magnetic field.
Their qubits are made from ytterbium ions held in place by magnetic fields and lasers, a technology with its origins in atomic clocks.
But however good their technology, they have to contend with an unusual property of superconductors — when the wires sweep through a magnetic field, their ability to generate current is reduced.
Naval researchers, Manheimer recounts, attempted to use plasma antenna technology aimed by magnetic fields to create a more precise «agile mirror» array.
As the probe magnetic field needs to be in close vicinity to the memory, this technique offers a more secure technology.
But in crystals of an iron - molybdenum oxide, a team led by Kei - Ichiro Kobayashi at the Joint Research Center for Atom Technology in Tsukuba, Japan, saw a 10 % drop in resistance when they placed the material in a strong magnetic field, considerably more than the one seen in comparable materials.
But four years ago, Xiao - Gang Wen of the Massachusetts Institute of Technology realised that if a magnetic field was applied across the material, the disruptive effect of impurities could be eliminated.
Researchers of MESA +, the research institute for nanotechnology of the University of Twente, in cooperation with researchers of the University of Strasbourg and Eindhoven University of Technology, are the first to successfully create perfect one - dimensional molecular wires of which the electrical conductivity can almost entirely be suppressed by a weak magnetic field at room temperature.
The change in electrical resistance through a magnetic field is called magnetoresistance and is very important in technology.
So Roger Fu of the Massachusetts Institute of Technology in Cambridge and colleagues teased apart the multiple magnetic fields in the meteorite Allan Hills A81001, a piece of vestan crust retrieved from the Antarctic ice.
In fact, some of the more promising technologies involved with nuclear fusion research use magnetic fields to contain plasmas.
Through developing several new technologies including the conversion of the high - temperature superconductor developed by NIMS in 1988 into the form of wire material, the research team recently created the NMR system equipped with world's highest magnetic field at 1,020 MHz.
The research team consisting of researchers at NIMS, RIKEN, Kobe Steel and JEOL RESONANCE (a consolidated subsidiary company of JEOL) successfully developed the NMR (nuclear magnetic resonance) system equipped with world's highest magnetic field, 1,020 MHz, during engagement in the JST - SENTAN program «Development of Systems and Technology for Advanced Measurement and Analysis.»
A research team of Japan's National Institute for Materials Science (NIMS), RIKEN, Kobe Steel and JEOL RESONANCE successfully developed the NMR system equipped with world's highest magnetic field, 1,020 MHz, supported by the JST - SENTAN program «Development of Systems and Technology for Advanced Measurement and Analysis.»
In the case of a lightsaber, the best today's technology could achieve would be a plasma weapon contained by magnetic fields.
That research brought him into contact with the UK company Oxford Instruments, which, focusing as it does on high magnetic field, low - temperature environments, supplied some of the technologies Cuthbert used in his research.
Progress in these developing fields has attracted the attention of industry leaders, and has already resulted in products such as magnetic random access memory that improve upon the existing charge - based technologies.
Even if it is right, he notes, a hyperdrive spacecraft would most likely require a sustained magnetic field hundreds of thousands of times stronger than Earth's, far beyond the reach of existing technology.
For example, in an MRI, they could be used to sense magnetic fields in far more detail than with today's technology, perhaps distinguishing atoms.
Then, in late 2003, National Institutes of Standards and Technology physicist Deborah Jin's team used lasers and magnetic fields to steady and chill potassium atoms until they formed the first ever so - called fermionic condensate.
Most normal metals exhibit an increase in resistivity when subject to magnetic fields, a known effect used in many current technologies.
To see dynamical tunneling in action, two teams — one based at the National Institute of Standards and Technology (NIST) in Gaithersburg, Maryland, the other at the University of Texas, Austin — first used a complicated series of laser beams and magnetic fields to cool atoms of cesium or sodium to a temperature of a few billionths of a degree above absolute zero.
But researchers at the Massachusetts Institute of Technology (MIT), led by physicist Marin Soljacic, think using magnetic fields to induce a current in a distant device is the most promising approach.
People might think twice about this technology if it meant turning their living rooms into microwave ovens, but the pulsing magnetic fields of the MIT system don't interact much with walls, people, or even tinfoil.
A team of scientists working at the U.S. Department of Energy's (DOE) Argonne National Laboratory and led by Northern Illinois University physicist and Argonne materials scientist Zhili Xiao has created a new material, called «rewritable magnetic charge ice,» that permits an unprecedented degree of control over local magnetic fields and could pave the way for new computing technologies.
Since MIT's (Massachusetts Institute of Technology) introduction of the Coupled Magnetic Resonance System (CMRS) in 2007, which used a magnetic field to transfer energy for a distance of 2.1 meters, the development of long - distance wireless power transfer has attracted much attention for further rMagnetic Resonance System (CMRS) in 2007, which used a magnetic field to transfer energy for a distance of 2.1 meters, the development of long - distance wireless power transfer has attracted much attention for further rmagnetic field to transfer energy for a distance of 2.1 meters, the development of long - distance wireless power transfer has attracted much attention for further research.
A team of scientists, led by Boy Lankhaar at Chalmers University of Technology, has solved an important puzzle in astrochemistry: how to measure magnetic fields in space using methanol, the simplest form of alcohol.
But we can create a stable ring and maintain it for as long as we want, no vacuum or magnetic field or anything,» says co-author Francisco Pereira of the Marine Technology Research Institute in Italy, a visiting scholar at Caltech.
Amsbio has announces MagSi - Direct - a new technology that brings the power, simplicity and convenience of magnetic separation to researchers involved in cell biology, protein chemistry, flow cytometry, diagnostics development and many other fields.
It plans to use newly available superconducting materials and technology that can create magnetic fields four times stronger than any in use now.
The company's strategy is to expand the business into the life sciences arena, where nanotechnology and biotechnology intersect This involves the combination of core technologies in areas such as low temperature, high magnetic field and ultra-high vacuum environments; Nuclear Magnetic Resonance; X-ray, electron, laser and optical based metrology; atomic force microscopy; optical imaging; advanced growth, deposition and magnetic field and ultra-high vacuum environments; Nuclear Magnetic Resonance; X-ray, electron, laser and optical based metrology; atomic force microscopy; optical imaging; advanced growth, deposition and Magnetic Resonance; X-ray, electron, laser and optical based metrology; atomic force microscopy; optical imaging; advanced growth, deposition and etching.
Our tools support research down to the atomic scale through creation of high performance, cryogen - free low temperature and magnetic environments, based upon our core technologies in low and ultra-low temperatures, high magnetic fields and system integration, with ever - increasing levels of experimental and measurement readiness.
Back in 1969, Dr. David Cohen, professor of Physics at Massachusetts Institute of Technology was able to detect the magnetic fields from the human heart and brain (source).
In a random selection of videos, Mrs. Burk — «the rapping math teacher» — models a lesson for students on perimeter and area, Dr. Altman demonstrates magnetic fields, a Utah school district presents a PowerPoint show on incorporating technology in the classroom, and a group of teachers give a detailed lesson on how to run a literature circle.
The technology stimulates the healing of tissues through the use of a pulsating magnetic field.
A diagram on graph paper for the movement of light on eight Plexiglas beams floating in a magnetic field, Art and Technology Proposal: Beams and Intensity of Lights, 1968, was on view in this long - overdue survey, which originated at KW Institute for Contemporary Art in Berlin and was organized by its chief curator, Ellen Blumenstein.
Renown solar scientist Dr. K.G. McCracken from the Institute for Physical Science and Technology, University of Maryland, in 2007 published paper: Changes in the cosmic ray and heliomagnetic components of space climate, 1428 — 2005, including the variable occurrence of solar energetic particle events McCracken 2007 paper Major result of McCracken investigation based on 10Be dating is: the estimated annual average heliospheric magnetic field strength near Earth, 1428 — 2005, based on the inter-calibrated cosmic ray record as shown in Fig. 2 on p. 1073 (4 of 8).
But there are preliminary studies that indicate micro wave technologies may adversely effect human health, and even the World Health Organization (WHO) admits more research is needed before we can say with certainty whether or not the many electronic devices that generate electric and magnetic fields (EMFs) are safe.
Another wireless earbud startup called Skybuds is taking a much different approach by eschewing earbud - to - earbud Bluetooth for something called «near field magnetic induction,» but it's an unproven technology that hit the market far too late for Earin to even consider using.
It also supports Magnetic Secure Transmission (MST) and Near Field Communications (NFC) payment technologies and comes with Samsung Pay.
Bragi, for example, had to delay production so it could build a hearing aid technology called Near Field Magnetic Induction into the Dash earbuds in order to get around using Bluetooth between buds.