STUDIES on the magnetic anisotropies of paramagnetic crystals are of interest because of the variety of information one can obtain from them under favourable conditions, on such widely different ...

Spin effects: Chiral phonons excited by the circularly polarized terahertz light pulses generate ultrafast magnetization in cerium fluoride. Fluorine ions (red, fuchsia) are set into motion by ...

IN a recent paper 1 we showed how paramagnetic relaxation experiments can give new insights into the nature of the trapping sites of trapped radicals and ions. Trapped electrons in irradiated alkaline ...

Stopping and cooling most of the atoms of the periodic table is now possible. Physicists stopped atoms by passing a supersonic beam through an "atomic coilgun" and cooled them using "single-photon ...

Magnetic interactions usually seen deep within solid materials have been simulated for the first time using ultracold atoms. By “tilting” a 1D chain of atoms, physicists in the US have created a ...

An international team of researchers has observed that local thermal perturbations of spins in a solid can convert heat to energy even in a paramagnetic material - where spins weren't thought to ...

Researchers turned a paramagnetic material into a magnet by manipulating electrons' spin via atomic motion. Quantum materials hold the key to a future of lightning-speed, energy-efficient information ...

In this editorial, Enrico Ravera gives an overview of the use of paramagnetic metals in NMR and explains how this can provide crucial information about the structure and dynamics of proteins, nucleic ...

Washington: University of Texas researchers have developed a twin-technique to control atoms, marking a major step forward in atomic physics with a variety of scientific and technological applications ...

(Nanowerk News) An international team of researchers has observed that local thermal perturbations of spins in a solid can convert heat to energy even in a paramagnetic material – where spins weren’t ...

Stopping and cooling most of the atoms of the periodic table is now possible using a pair of techniques developed by physicist Mark Raizen at The University of Texas at Austin. Raizen stopped atoms by ...