Neuroimaging findings suggest that the trigeminal nerve and hippocampus volumes predict surgical treatment success
Tag: ELECTROMAGNETICS
Maglab scientists capture molecular maps of animal tissue with unprecedented detail
We’ve all heard, and seen, how a picture paints a thousand words. Now, in a scientific twist on that saying, researchers at the Florida State University-headquartered National High Magnetic Field Laboratory (National MagLab), are creating pictures that paint thousands of…
Scientists invent a new method of generating intense short UV vortices
An international group of scientists, including Skoltech Professor Sergey Rykovanov, has found a way to generate intense “twisted” pulses. The vortices discovered by the scientists will help investigate new materials. The results of their study were published in the prestigious…
Researchers expand microchip capability with new 3D inductor technology
CHAMPAIGN, Ill. — Smaller is better when it comes to microchips, researchers said, and by using 3D components on a standardized 2D microchip manufacturing platform, developers can use up to 100 times less chip space. A team of engineers has…
Maglab scientists capture molecular maps of animal tissue with unprecedented detail
We’ve all heard, and seen, how a picture paints a thousand words. Now, in a scientific twist on that saying, researchers at the Florida State University-headquartered National High Magnetic Field Laboratory (National MagLab), are creating pictures that paint thousands of…
Scientists invent a new method of generating intense short UV vortices
An international group of scientists, including Skoltech Professor Sergey Rykovanov, has found a way to generate intense “twisted” pulses. The vortices discovered by the scientists will help investigate new materials. The results of their study were published in the prestigious…
Researchers expand microchip capability with new 3D inductor technology
CHAMPAIGN, Ill. — Smaller is better when it comes to microchips, researchers said, and by using 3D components on a standardized 2D microchip manufacturing platform, developers can use up to 100 times less chip space. A team of engineers has…
Physicists trap light in nanoresonators for record time
The reference particle captured light for a time exceeding 200 periods of one wave oscillation, 20-40 times longer than usual; this opens new perspectives in such areas as manufacturing compact sensors, night vision devices, and optical data transmission
Physicists trap light in nanoresonators for record time
The reference particle captured light for a time exceeding 200 periods of one wave oscillation, 20-40 times longer than usual; this opens new perspectives in such areas as manufacturing compact sensors, night vision devices, and optical data transmission
Physicists trap light in nanoresonators for record time
The reference particle captured light for a time exceeding 200 periods of one wave oscillation, 20-40 times longer than usual; this opens new perspectives in such areas as manufacturing compact sensors, night vision devices, and optical data transmission
Designer-defect clamping of ferroelectric domain walls for more-stable nanoelectronics
Improved stability a significant step forward for domain-wall nanoelectronic data storage
Designer-defect clamping of ferroelectric domain walls for more-stable nanoelectronics
Improved stability a significant step forward for domain-wall nanoelectronic data storage
Magnetized molecules used to monitor breast cancer
A new type of scan that involves magnetising molecules allows doctors to see in real-time which regions of a breast tumour are active, according to research funded by Cancer Research UK* and published in Proceedings of the National Academy of…
Photoelectrochemical water-splitting efficiency hits 4.5%
Photoelectrochemical (PEC) water splitting for hydrogen fuel generation has been considered the Holy Grail of electrochemistry. But to achieve it, many scientists believe the materials have to be abundant and low cost. The most promising oxide photocathodes are cuprous oxide…
VHF radar operation starts in Thailand for observation of plasma bubble
High-precision plasma bubble observation from the initial generation by installation at the magnetic equator
Study finds billions of quantum entangled electrons in ‘strange metal’
Physicists provide direct evidence of entanglement’s role in quantum criticality
Photoelectrochemical water-splitting efficiency hits 4.5%
Photoelectrochemical (PEC) water splitting for hydrogen fuel generation has been considered the Holy Grail of electrochemistry. But to achieve it, many scientists believe the materials have to be abundant and low cost. The most promising oxide photocathodes are cuprous oxide…
VHF radar operation starts in Thailand for observation of plasma bubble
High-precision plasma bubble observation from the initial generation by installation at the magnetic equator
Photoelectrochemical water-splitting efficiency hits 4.5%
Photoelectrochemical (PEC) water splitting for hydrogen fuel generation has been considered the Holy Grail of electrochemistry. But to achieve it, many scientists believe the materials have to be abundant and low cost. The most promising oxide photocathodes are cuprous oxide…
VHF radar operation starts in Thailand for observation of plasma bubble
High-precision plasma bubble observation from the initial generation by installation at the magnetic equator
Study finds billions of quantum entangled electrons in ‘strange metal’
Physicists provide direct evidence of entanglement’s role in quantum criticality
Study finds billions of quantum entangled electrons in ‘strange metal’
Physicists provide direct evidence of entanglement’s role in quantum criticality
First TU Graz-SAL Research Labs push top-level research in electronics-based systems
Whether car, smartphone or tablet, today microelectronics is found in almost every electronic device and forms the basis of the Internet of Things (IoT) in which billions of smart devices are networked to form intelligent systems. The electronic components have…
First TU Graz-SAL Research Labs push top-level research in electronics-based systems
Whether car, smartphone or tablet, today microelectronics is found in almost every electronic device and forms the basis of the Internet of Things (IoT) in which billions of smart devices are networked to form intelligent systems. The electronic components have…
Randomness opens the gates to the land of attophotography
One of the last obstacles hindering the photography and filming of processes occurring on a scale of attoseconds, i.e. billionths of a billionth of a second, has disappeared. The key to its removal lies in the random nature of the…
Randomness opens the gates to the land of attophotography
One of the last obstacles hindering the photography and filming of processes occurring on a scale of attoseconds, i.e. billionths of a billionth of a second, has disappeared. The key to its removal lies in the random nature of the…
Nanobubbles in nanodroplets
A team headed by Professor Frank Stienkemeier at Freiburg’s Institute of Physics and Dr. Marcel Mudrich, professor at the University of Aarhus in Denmark, has observed the ultrafast reaction of nanodroplets of helium after excitation with extreme ultraviolet radiation (XUV)…
A breath of fresh air for longer-running batteries
A low-cost catalyst on a sulfur-doped, porous, carbon nanostructure improves the performance of lithium batteries that run on air
Developed a band-aid-like sensor to detect human body conditions in real-time
Dramatically improved sensor stability with complex structural design that mimics snake motions, spider webs, and paper craft Expected to be applied in various fields such as bio-diagnosis, smart skin, clothes, and livestock diagnosis
Developed a band-aid-like sensor to detect human body conditions in real-time
Dramatically improved sensor stability with complex structural design that mimics snake motions, spider webs, and paper craft Expected to be applied in various fields such as bio-diagnosis, smart skin, clothes, and livestock diagnosis
Nanobubbles in nanodroplets
A team headed by Professor Frank Stienkemeier at Freiburg’s Institute of Physics and Dr. Marcel Mudrich, professor at the University of Aarhus in Denmark, has observed the ultrafast reaction of nanodroplets of helium after excitation with extreme ultraviolet radiation (XUV)…
Moving domain walls induce losses in superconductor/ferromagnet hybrid systems
Physicist have shown that the motion of domain walls can be detected by monitoring voltage generated in superconducting devices. This finding can facilitate magnetic racetrack memory applications. The result was published in Physical Review Letters -publication. The international research group…
Moving domain walls induce losses in superconductor/ferromagnet hybrid systems
Physicist have shown that the motion of domain walls can be detected by monitoring voltage generated in superconducting devices. This finding can facilitate magnetic racetrack memory applications. The result was published in Physical Review Letters -publication. The international research group…
Paving the way for spintronic RAMs: A deeper look into a powerful spin phenomenon
Scientists at Tokyo Institute of Technology(Tokyo Tech) explore a new material combination that sets the stage for magnetic random access memories, which rely on spin–an intrinsic property of electrons– and could outperform current storage devices. Their breakthrough published in a…
Researchers directly measure ‘Cheerios effect’ forces for the first time
PROVIDENCE, R.I. [Brown University] — There’s an interesting fluid dynamics phenomenon that happens every morning in millions of cereal bowls. When there are just a few bits of cereal left floating on top of the milk, they tend to cluster…
New algorithm could mean more efficient, accurate equipment for Army
RESEARCH TRIANGLE PARK, N.C. (Dec. 19, 2019) – Researchers working on an Army-funded project have developed an algorithm to simulate how electromagnetic waves interact with materials in devices to create equipment more efficiently and accurately. The algorithm could be used…
Researchers directly measure ‘Cheerios effect’ forces for the first time
PROVIDENCE, R.I. [Brown University] — There’s an interesting fluid dynamics phenomenon that happens every morning in millions of cereal bowls. When there are just a few bits of cereal left floating on top of the milk, they tend to cluster…
New algorithm could mean more efficient, accurate equipment for Army
RESEARCH TRIANGLE PARK, N.C. (Dec. 19, 2019) – Researchers working on an Army-funded project have developed an algorithm to simulate how electromagnetic waves interact with materials in devices to create equipment more efficiently and accurately. The algorithm could be used…
City College leads new photonics breakthrough
A new approach to trapping light in artificial photonic materials by a City College of New York-led team could lead to a tremendous boost in the transfer speed of data online. Research into topological photonic metamaterials headed by City College…
City College leads new photonics breakthrough
A new approach to trapping light in artificial photonic materials by a City College of New York-led team could lead to a tremendous boost in the transfer speed of data online. Research into topological photonic metamaterials headed by City College…
How light a foldable and long-lasting battery can be?
With the launch of wearable devices and smartphones that require high capacity of electricity such as foldable phones and 5G phones, the interest in batteries are increasing and various battery types are developed. For example, flexible batteries embedded in the…
Cheers! Maxwell’s electromagnetism extended to smaller scales
More than one hundred and fifty years have passed since the publication of James Clerk Maxwell’s “A Dynamical Theory of the Electromagnetic Field” (1865). What would our lives be without this publication? It is difficult to imagine, as this treatise…
(Noise-) less is more
Development of high precision 3D circuit simulator allows for electromagnetic noise-less circuit layout
How light a foldable and long-lasting battery can be?
With the launch of wearable devices and smartphones that require high capacity of electricity such as foldable phones and 5G phones, the interest in batteries are increasing and various battery types are developed. For example, flexible batteries embedded in the…
Cheers! Maxwell’s electromagnetism extended to smaller scales
More than one hundred and fifty years have passed since the publication of James Clerk Maxwell’s “A Dynamical Theory of the Electromagnetic Field” (1865). What would our lives be without this publication? It is difficult to imagine, as this treatise…
(Noise-) less is more
Development of high precision 3D circuit simulator allows for electromagnetic noise-less circuit layout
Communications device offers huge bandwidth potential
Researchers have painstakingly combined plasma, metal and dielectric materials into multifunctional, artificial crystals, which could pave the way to higher bandwidth wireless communications
Deeper understanding of irregular heartbeat may lead to more effective treatment
Researchers at Imperial have shown how the chaotic electrical signals underlying irregular heart rhythms lead to the failure of standard treatments. By modelling how electrical signals on the inside and the outside of the heart move across the muscle, researchers…
Deeper understanding of irregular heartbeat may lead to more effective treatment
Researchers at Imperial have shown how the chaotic electrical signals underlying irregular heart rhythms lead to the failure of standard treatments. By modelling how electrical signals on the inside and the outside of the heart move across the muscle, researchers…
Nanowire detects Abrikosov vortices
Researchers from the Moscow Institute of Physics and Technology, Lomonosov Moscow State University, and the Institute of Solid State Physics of the Russian Academy of Sciences have demonstrated the possibility of detecting Abrikosov vortices penetrating through a superconductor-ferromagnet interface. The…