Sentences with phrase «material research field»

With numerous symposiums and plenary sessions E-MRS Spring Meeting provides a forum to discuss current trends and cutting - edge research on nanomaterials, biomaterials and nanomedicine, semiconductors and nanodevices, material processing and characterization setting up trends and future paths in material research field.

Still, plans are under way for creating the necessary vehicles and artificial environments for space travel and residence, vast resources of intelligence and materials are being expended on research and development in the field of space technology, and increasing numbers of able young people are being educated for future work in this field.

Kevin Whittlesey (2006 - 07 Congressional Fellow sponsored by Optical Society of America and Materials Research Society) has moved into the gene therapy field at 4D Molecular Therapeutics as director of program and alliance management.

The new model «came out of left field, but it's very original,» says materials scientist Graham Hubler of the Naval Research Laboratory in Washington, D.C., who saw ball lightning as a teenager during a thunderstorm in upstate New York 40 years ago.

Lewis applies materials science techniques to the field of forensics, and some of her research has helped crime scene investigators rebuild fingerprints after they have faded over time.

Defined as the harnessing of living processes to achieve healing and repair of damaged and diseased tissues by Tim Hardingham, director of the UK Centre for Tissue Engineering, it is a field that requires collaborative research involving cell and molecular biologists, chemical engineers, materials scientists, and surgeons.

Speaking about the research, which enables scientists and engineers to quantify how transparent a 2D material is to an electrostatic field, Dr Elton Santos from the Atomistic Simulation Research Centre at Queen's, said: «In our paper we have developed a theoretical framework that predicts and quantifies the degree of «transparency» up to the limit of one - atom - thick, 2D materials, to an electrostatiresearch, which enables scientists and engineers to quantify how transparent a 2D material is to an electrostatic field, Dr Elton Santos from the Atomistic Simulation Research Centre at Queen's, said: «In our paper we have developed a theoretical framework that predicts and quantifies the degree of «transparency» up to the limit of one - atom - thick, 2D materials, to an electrostatiResearch Centre at Queen's, said: «In our paper we have developed a theoretical framework that predicts and quantifies the degree of «transparency» up to the limit of one - atom - thick, 2D materials, to an electrostatic field.

The resulting disordered atomic network and its physical properties resemble those seen in some glassy materials, which has led many in the field to use them in nuclear research.

BES supports basic research in chemistry, materials science, condensed matter physics, and related fields, as well as funding DOE's x-ray synchrotrons and neutron sources.

Their research has also introduced a new dimension to the emerging field of «phononics» which is the controlling and manipulating of heat flow with phonons (particles which transmit heat within solid materials).

Research at INM is performed in three fields: Nanocomposite Technology, Interface Materials, and Bio Interfaces.

At a meeting of the Materials Research Society here yesterday, scientists described a pair of techniques for wiring up nano - sized chips — one that uses electric fields, the other DNA.

Now, once again, there has been a breakthrough in this field of research, with researchers at TU Wien being the first to successfully detect Weyl particles in strongly correlated electron systems — that is, materials where the electrons have a strong interaction with each other.

The research builds on longstanding collaborations involving laboratories around the world, and scientists in the fields of chemistry, material science, physics and geochemistry.

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.

Next Wave's Jim Austin notes that the limited data we have about this field indicate that materials science research is full of wonderful scientific opportunities and equally full of talented young scientists chasing a limited number of jobs.

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.

Dr Khan's research combines materials sciences, nano coatings within the field of surface engineering, heat and fluids within heat transfer and thermodynamics, and storage and corrosion engineering.

This high - energy particle collider, envisioned as a possible successor to the Large Hadron Collider, would boost Russia's research in many fields, including information science, biology, and materials science, they say.

Recently, his research group has started venturing into the field of simulation for biological materials such as muscle tissue.

Kensuke Kobayashi (Professor, Graduate School of Science, Osaka University) and Sadashige Matsuo (Assistant Professor, Graduate School of Engineering, The University of Tokyo), in cooperation with research groups led by Teruo Ono (Professor, Institute for Chemical Research, Kyoto University) and Kazuhito Tsukagoshi (Research Fellow, International Center for Materials Nanoarchitectonics, National Institute for Materials Science), produced graphene samples capable of forming p - n junctions by combining gate electrodes and performed precise measurements of current - fluctuation («shot noise») in the graphene p - n junction in the QH regime in the strong magnetic fields and at low temperesearch groups led by Teruo Ono (Professor, Institute for Chemical Research, Kyoto University) and Kazuhito Tsukagoshi (Research Fellow, International Center for Materials Nanoarchitectonics, National Institute for Materials Science), produced graphene samples capable of forming p - n junctions by combining gate electrodes and performed precise measurements of current - fluctuation («shot noise») in the graphene p - n junction in the QH regime in the strong magnetic fields and at low tempeResearch, Kyoto University) and Kazuhito Tsukagoshi (Research Fellow, International Center for Materials Nanoarchitectonics, National Institute for Materials Science), produced graphene samples capable of forming p - n junctions by combining gate electrodes and performed precise measurements of current - fluctuation («shot noise») in the graphene p - n junction in the QH regime in the strong magnetic fields and at low tempeResearch Fellow, International Center for Materials Nanoarchitectonics, National Institute for Materials Science), produced graphene samples capable of forming p - n junctions by combining gate electrodes and performed precise measurements of current - fluctuation («shot noise») in the graphene p - n junction in the QH regime in the strong magnetic fields and at low temperatures.

BES funds research in condensed matter physics, materials science, chemistry, and related fields and runs DOE's x-ray sources and most of its other «user facilities,» and the White House has requested a 6.6 % increase in the BES budget to $ 1.8 billion.

The report nicely illustrates that «excellen [t] science» is the sole selection criterion,» regardless of whether the research fits any pre-established ways of thinking or traditional fields of science, Schäfer, who also leads an interdisciplinary group at the University of the Basque Country's Institute for Polymer Materials in Donostia - San Sebastián, Spain, writes in an email to Science Careers.

Their research was funded by the BMBF (Federal Ministry of Education and Research) within the scope of the POPUP project which is aimed at developing novel materials and device structures suitable for competitive mass production processes and applications in the field of organic photovresearch was funded by the BMBF (Federal Ministry of Education and Research) within the scope of the POPUP project which is aimed at developing novel materials and device structures suitable for competitive mass production processes and applications in the field of organic photovResearch) within the scope of the POPUP project which is aimed at developing novel materials and device structures suitable for competitive mass production processes and applications in the field of organic photovoltaics.

She would advise young chemists who think of going into materials science to consider carefully the research group to which they apply for their Ph.D. «You should definitely not choose a theoretical research topic,» she says, to show that experience in applicative chemistry research gives you a head start in materials science, «and it helps if your professor is known in the field.»

Andrews says the team's research marks an important turning point in the field because it represents a significant advance toward solving the cathode problem while also highlighting the inherent advantages of using much more imaginative, metastable materials like this new form of vanadium pentoxide.

«What makes this field of research so interesting is that we still do not know exactly what happens when light hits a material.

He immediately alienated many of the 500 scientists under his purview with calls to reorganize research programs and threats to close a zoological field station and a lab for materials science research and education (Science, 13 July 2001, p. 194).

While the Missouri S&T team has yet to fabricate actual meta - atoms, they say their research shows that the materials could be built and used for optical communications, image processing, energy redirecting and other emerging fields, such as adaptive optics.

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.

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.»

From hosting a webinar series on the use of specific scientific methods to support human rights research, to the development of teaching materials to integrate human rights into STEM curricula, from assessing the extent to which marginalized populations are represented in STEM fields, to cultivating a human rights interest group within a member organization, there are many ways in which Coalition members can further the mission of the Coalition within their communities, organizations and in collaboration with others.

David Thouless of the University of Washington in Seattle, J. Michael Kosterlitz of Brown University and Duncan Haldane of Princeton University received the prize for their research, which predicted new types of materials and spurred interest in the field of topological materials.

The material — known as 1T» - WTe2 — bridges two flourishing fields of research: that of so - called 2 - D materials, which include monolayer materials such as graphene that behave in different ways than their thicker forms; and topological materials, in which electrons can zip around in predictable ways with next to no resistance and regardless of defects that would ordinarily impede their movement.

Their research advances the understanding of how these materials can be manipulated without having to discover new materials, change the chemical concentration or apply external magnetic fields.

Numerous materials with extreme magnetoresistance have been reported since the Cava lab first discovered extreme magnetoresistance (originally named «large magnetoresistance» by Nature editors before the research field supplanted it with the current term) in WTe2 two years ago.

«The adoption of badges across a broader range of journals could have a large effect on the field, and may lead to a cultural shift among scientists toward increased transparency and sharing of research data and materials.»

Aiming to become the one of the world's largest research center for nanoarchitectonics and materials fields.

Non-exclusive licenses are available for research and sale of products and services across multiple fields including: research tools, kits, reagents; discovery of novel targets for therapeutic intervention; cell lines for discovery and screening of novel drug candidates; GMP production of healthcare products; production of industrial materials such as enzymes, biofuels and chemicals; and synthetic biology.

g (acceleration due to gravity) G (gravitational constant) G star G1.9 +0.3 gabbro Gabor, Dennis (1900 — 1979) Gabriel's Horn Gacrux (Gamma Crucis) gadolinium Gagarin, Yuri Alexeyevich (1934 — 1968) Gagarin Cosmonaut Training Center GAIA Gaia Hypothesis galactic anticenter galactic bulge galactic center Galactic Club galactic coordinates galactic disk galactic empire galactic equator galactic habitable zone galactic halo galactic magnetic field galactic noise galactic plane galactic rotation galactose Galatea GALAXIES galaxy galaxy cannibalism galaxy classification galaxy formation galaxy interaction galaxy merger Galaxy, The Galaxy satellite series Gale Crater Galen (c. AD 129 — c. 216) galena GALEX (Galaxy Evolution Explorer) Galilean satellites Galilean telescope Galileo (Galilei, Galileo)(1564 — 1642) Galileo (spacecraft) Galileo Europa Mission (GEM) Galileo satellite navigation system gall gall bladder Galle, Johann Gottfried (1812 — 1910) gallic acid gallium gallon gallstone Galois, Évariste (1811 — 1832) Galois theory Galton, Francis (1822 — 1911) Galvani, Luigi (1737 — 1798) galvanizing galvanometer game game theory GAMES AND PUZZLES gamete gametophyte Gamma (Soviet orbiting telescope) Gamma Cassiopeiae Gamma Cassiopeiae star gamma function gamma globulin gamma rays Gamma Velorum gamma - ray burst gamma - ray satellites Gamow, George (1904 — 1968) ganglion gangrene Ganswindt, Hermann (1856 — 1934) Ganymede «garbage theory», of the origin of life Gardner, Martin (1914 — 2010) Garneau, Marc (1949 ---RRB- garnet Garnet Star (Mu Cephei) Garnet Star Nebula (IC 1396) garnierite Garriott, Owen K. (1930 ---RRB- Garuda gas gas chromatography gas constant gas giant gas laws gas - bounded nebula gaseous nebula gaseous propellant gaseous - propellant rocket engine gasoline Gaspra (minor planet 951) Gassendi, Pierre (1592 — 1655) gastric juice gastrin gastrocnemius gastroenteritis gastrointestinal tract gastropod gastrulation Gatewood, George D. (1940 ---RRB- Gauer - Henry reflex gauge boson gauge theory gauss (unit) Gauss, Carl Friedrich (1777 — 1855) Gaussian distribution Gay - Lussac, Joseph Louis (1778 — 1850) GCOM (Global Change Observing Mission) Geber (c. 720 — 815) gegenschein Geiger, Hans Wilhelm (1882 — 1945) Geiger - Müller counter Giessler tube gel gelatin Gelfond's theorem Gell - Mann, Murray (1929 ---RRB- GEM «gemination,» of martian canals Geminga Gemini (constellation) Gemini Observatory Gemini Project Gemini - Titan II gemstone gene gene expression gene mapping gene pool gene therapy gene transfer General Catalogue of Variable Stars (GCVS) general precession general theory of relativity generation ship generator Genesis (inflatable orbiting module) Genesis (sample return probe) genetic code genetic counseling genetic disorder genetic drift genetic engineering genetic marker genetic material genetic pool genetic recombination genetics GENETICS AND HEREDITY Geneva Extrasolar Planet Search Program genome genome, interstellar transmission of genotype gentian violet genus geoboard geode geodesic geodesy geodesy satellites geodetic precession Geographos (minor planet 1620) geography GEOGRAPHY Geo - IK geologic time geology GEOLOGY AND PLANETARY SCIENCE geomagnetic field geomagnetic storm geometric mean geometric sequence geometry GEOMETRY geometry puzzles geophysics GEOS (Geodetic Earth Orbiting Satellite) Geosat geostationary orbit geosynchronous orbit geosynchronous / geostationary transfer orbit (GTO) geosyncline Geotail (satellite) geotropism germ germ cells Germain, Sophie (1776 — 1831) German Rocket Society germanium germination Gesner, Konrad von (1516 — 1565) gestation Get Off the Earth puzzle Gettier problem geyser g - force GFO (Geosat Follow - On) GFZ - 1 (GeoForschungsZentrum) ghost crater Ghost Head Nebula (NGC 2080) ghost image Ghost of Jupiter (NGC 3242) Giacconi, Riccardo (1931 ---RRB- Giacobini - Zinner, Comet (Comet 21P /) Giaever, Ivar (1929 ---RRB- giant branch Giant Magellan Telescope giant molecular cloud giant planet giant star Giant's Causeway Giauque, William Francis (1895 — 1982) gibberellins Gibbs, Josiah Willard (1839 — 1903) Gibbs free energy Gibson, Edward G. (1936 ---RRB- Gilbert, William (1544 — 1603) gilbert (unit) Gilbreath's conjecture gilding gill gill (unit) Gilruth, Robert R. (1913 — 2000) gilsonite gimbal Ginga ginkgo Giotto (ESA Halley probe) GIRD (Gruppa Isutcheniya Reaktivnovo Dvisheniya) girder glacial drift glacial groove glacier gland Glaser, Donald Arthur (1926 — 2013) Glashow, Sheldon (1932 ---RRB- glass GLAST (Gamma - ray Large Area Space Telescope) Glauber, Johann Rudolf (1607 — 1670) glaucoma glauconite Glenn, John Herschel, Jr. (1921 ---RRB- Glenn Research Center Glennan, T (homas) Keith (1905 — 1995) glenoid cavity glia glial cell glider Gliese 229B Gliese 581 Gliese 67 (HD 10307, HIP 7918) Gliese 710 (HD 168442, HIP 89825) Gliese 86 Gliese 876 Gliese Catalogue glioma glissette glitch Global Astrometric Interferometer for Astrophysics (GAIA) Global Oscillation Network Group (GONG) Globalstar globe Globigerina globular cluster globular proteins globule globulin globus pallidus GLOMR (Global Low Orbiting Message Relay) GLONASS (Global Navigation Satellite System) glossopharyngeal nerve Gloster E. 28/39 glottis glow - worm glucagon glucocorticoid glucose glucoside gluon Glushko, Valentin Petrovitch (1908 — 1989) glutamic acid glutamine gluten gluteus maximus glycerol glycine glycogen glycol glycolysis glycoprotein glycosidic bond glycosuria glyoxysome GMS (Geosynchronous Meteorological Satellite) GMT (Greenwich Mean Time) Gnathostomata gneiss Go Go, No - go goblet cell GOCE (Gravity field and steady - state Ocean Circulation Explorer) God Goddard, Robert Hutchings (1882 — 1945) Goddard Institute for Space Studies Goddard Space Flight Center Gödel, Kurt (1906 — 1978) Gödel universe Godwin, Francis (1562 — 1633) GOES (Geostationary Operational Environmental Satellite) goethite goiter gold Gold, Thomas (1920 — 2004) Goldbach conjecture golden ratio (phi) Goldin, Daniel Saul (1940 ---RRB- gold - leaf electroscope Goldstone Tracking Facility Golgi, Camillo (1844 — 1926) Golgi apparatus Golomb, Solomon W. (1932 — 2016) golygon GOMS (Geostationary Operational Meteorological Satellite) gonad gonadotrophin - releasing hormone gonadotrophins Gondwanaland Gonets goniatite goniometer gonorrhea Goodricke, John (1764 — 1786) googol Gordian Knot Gordon, Richard Francis, Jr. (1929 — 2017) Gore, John Ellard (1845 — 1910) gorge gorilla Gorizont Gott loop Goudsmit, Samuel Abraham (1902 — 1978) Gould, Benjamin Apthorp (1824 — 1896) Gould, Stephen Jay (1941 — 2002) Gould Belt gout governor GPS (Global Positioning System) Graaf, Regnier de (1641 — 1673) Graafian follicle GRAB graben GRACE (Gravity Recovery and Climate Experiment) graceful graph gradient Graham, Ronald (1935 ---RRB- Graham, Thomas (1805 — 1869) Graham's law of diffusion Graham's number GRAIL (Gravity Recovery and Interior Laboratory) grain (cereal) grain (unit) gram gram - atom Gramme, Zénobe Théophile (1826 — 1901) gramophone Gram's stain Gran Telescopio Canarias (GTC) Granat Grand Tour grand unified theory (GUT) Grandfather Paradox Granit, Ragnar Arthur (1900 — 1991) granite granulation granule granulocyte graph graph theory graphene graphite GRAPHS AND GRAPH THEORY graptolite grass grassland gravel graveyard orbit gravimeter gravimetric analysis Gravitational Biology Facility gravitational collapse gravitational constant (G) gravitational instability gravitational lens gravitational life gravitational lock gravitational microlensing GRAVITATIONAL PHYSICS gravitational slingshot effect gravitational waves graviton gravity gravity gradient gravity gradient stabilization Gravity Probe A Gravity Probe B gravity - assist gray (Gy) gray goo gray matter grazing - incidence telescope Great Annihilator Great Attractor great circle Great Comets Great Hercules Cluster (M13, NGC 6205) Great Monad Great Observatories Great Red Spot Great Rift (in Milky Way) Great Rift Valley Great Square of Pegasus Great Wall greater omentum greatest elongation Green, George (1793 — 1841) Green, Nathaniel E. Green, Thomas Hill (1836 — 1882) green algae Green Bank Green Bank conference (1961) Green Bank Telescope green flash greenhouse effect greenhouse gases Green's theorem Greg, Percy (1836 — 1889) Gregorian calendar Grelling's paradox Griffith, George (1857 — 1906) Griffith Observatory Grignard, François Auguste Victor (1871 — 1935) Grignard reagent grike Grimaldi, Francesco Maria (1618 — 1663) Grissom, Virgil (1926 — 1967) grit gritstone Groom Lake Groombridge 34 Groombridge Catalogue gross ground, electrical ground state ground - track group group theory GROUPS AND GROUP THEORY growing season growth growth hormone growth hormone - releasing hormone growth plate Grudge, Project Gruithuisen, Franz von Paula (1774 — 1852) Grus (constellation) Grus Quartet (NGC 7552, NGC 7582, NGC 7590, and NGC 7599) GSLV (Geosynchronous Satellite Launch Vehicle) g - suit G - type asteroid Guericke, Otto von (1602 — 1686) guanine Guiana Space Centre guidance, inertial Guide Star Catalog (GSC) guided missile guided missiles, postwar development Guillaume, Charles Édouard (1861 — 1938) Gulf Stream (ocean current) Gulfstream (jet plane) Gullstrand, Allvar (1862 — 1930) gum Gum Nebula gun metal gunpowder Gurwin Gusev Crater gut Gutenberg, Johann (c. 1400 — 1468) Guy, Richard Kenneth (1916 ---RRB- guyot Guzman Prize gymnosperm gynecology gynoecium gypsum gyrocompass gyrofrequency gyropilot gyroscope gyrostabilizer Gyulbudagian's Nebula (HH215)

Debrecen www.atomki.mta.hu Fundamental research in experimental and theoretical atomic, nuclear and particle physics, and in applying the physical methods and knowledge in other fields of science like materials research, environmental and earth sciences, biological and medical research etc..

Supported by a grant from the Swedish Research Council, researchers at Linnaeus University will conduct experimental and theoretical studies of magnetic topological materials, a field awarded the Nobel Prize in Physics 2016.

Quanxi Jia, working in the areas of superconductivity, magnetic materials and thin - films, has conducted pioneering research in complex oxide thin film growth and is a recognized leader in the field of electronic device fabrication.

Referring to Professor Bradley as «one of the pioneers of plastic electronics», Professor Cheah Kok Wai, Head and Chair Professor of the Department of Physics at HKBU, said «the invention of conjugated polymer LEDs launched the field of plastic electronics research and if one looks back along its subsequent path, one can see the many significant contributions to the science and application of molecular electronic materials and devices that Professor Bradley has made, leading to him becoming one of the most highly cited materials researchers in the world».

The library focuses on materials in support of PPPL's research in the fields of plasma physics and controlled nuclear fusion.

He also has several patents awarded or pending, served on numerous scientific advisory and review committees, organized several national and international conferences (including the 2006 Materials Research Society Fall meeting with more 5000 attendees), and edited 6 books in the field of materials characterization using synchrotron rMaterials Research Society Fall meeting with more 5000 attendees), and edited 6 books in the field of materials characterization using synchrotron rmaterials characterization using synchrotron radiation.

Fellow, American Association for the Advancement of Science, Chemistry Division, for innovations in synchrotron radiation spectroscopy research in revealing electronic and atomic structure of new materials; and strategic leadership in the field of chemical imaging, 2015

Some have even enlisted the help of young people: Professor Harry Gray, a pioneer in the field, has created a Solar Army of high - school students doing research to find the best new materials to make artificial leaves.

Interesting experiments have already been performed to research how magnetic and electrical effects can be linked and now Pimenov and his team of researchers have managed to use electrical fields to control the high - frequency magnetic oscillations of a material consisting of iron, boron and rare - earth metals for the first time.

Berkeley Lab's inertial fusion energy research has emphasized ion beams — focused by magnetic fields, not materials like glass, and accelerated by induction accelerators.