Physicists use atomic magnetometers to measure the biomagnetic signals of the carnivorous plant. The Venus flytrap (Dionaea muscipula) is a carnivorous plant that encloses its…
Posts published in “Electromagnetics”
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Artist’s representation of a halide perovskite photocathode. Researchers at Rice University and Los Alamos National Laboratory found halide perovskite semiconductors (silver) treated with a thin…
Tool uses electromagnetic energy to help study inactivation of aerosolized viral particles and reduce the spread of infection. As the pandemic has continued to spread…
Top: Counting statistics (ptx) of an error signal (x) recorded by a single-charge detector, shown as a function of the number of repetitions (t) of…
Schematic of light-induced formation of Weyl points in a Dirac material of ZrTe5. Jigang Wang and collaborators report how coherently twisted lattice motion by laser…
There are three modules in the experiment: state preparation, evolution, and measurement. Credit: HOU Zhibo et al. Real-life applications like magnetometry or quantum gyroscope typically…
Transmitter density means greater population exposure to high levels of radio frequency electromagnetic fields. We should err on the side of caution and stop the…
Researchers from the Moscow Institute of Physics and Technology (MIPT) have developed a prototype detector of solar particles. The device is capable of picking up…
Figure 1. Optical laser pulses generate two types of torque, field-like (?FL) and damping-like (?DL), that affect the three magnetizations of YMnO3. The damping-like torque…
NTU Prof Raju holding and bending two pieces of wood bonded in the middle by the magnetocuring glue, to demonstrate its strong bonding strength. Credit:…
Ultra-thin gold lamellae drastically amplify the incoming terahertz pulses (red) in the underlying graphene layer, enabling efficient frequency multiplication. Credit: HZDR/Werkstatt X On the electromagnetic…
Illustration of an electron-beam “sketching” a quantum dot at the LaAlO3/SrTiO3 interface. Credit: Muqing Yu Technique is 10,000 faster than previous methods, and can create…
The 3.8 kg large CH3NH3PbBr3 crystal growth at LPMC for high-energy gamma-ray detection. The Rubik cube next sets the scale. Credit: László Forró (EPFL). Credit:…
An electrical current excites the superposition of two magnons with linear polarization (indicated by the red and blue arrows). Subsequently, energy is transported through the…
Switching points of the brain are simulated with magnetic waves, which are specifically generated and divided using nonlinear processes within microscopically small vortex discs. Credit:…
Pictural representation of the molecule-based magnet and its magnetic properties. Credit: Rodolphe Clérac Magnets are to be found everywhere in our daily lives, whether in…
The ability to cancel magnetic fields has benefits in quantum technology, biomedicine, and neurology. A team of scientists including two physicists at the University of…
At left, natural diamonds glow under ultraviolet light owing to their various nitrogen-vacancy (NV) centers. At right, a schematic depicting the diamond anvils in action,…
Image shows oscillations of the compass needle in the field of a refrigerator magnet. Credit: Barsukov lab, UC Riverside University of California, Riverside, physics students…
An obstacle to generating fusion reactions inside facilities called tokamaks is that producing the current in plasma that helps create confining magnetic fields happens in…