Newly published research demonstrates a novel way of generating phonon-polaritons by making electrons collide with crystal lattice structures. The discovery paves the way for cheaper, smaller ...

The work 'Hyperbolic phonon-polariton electroluminescence in 2D heterostructures', led by researchers at the US Advanced ...

Phasons, low-temperature quasiparticles found in crystal lattices, help interlayer excitons move at ultra-low temperatures, ...

A moiré pattern appears when you stack and rotate two copies of an image with regularly repeating shapes, turning simple ...

A newly engineered niobium battery material enables record-fast charging by optimizing lithium-ion movement at the atomic ...

A hidden quantum wave may keep particles moving, even when everything else freezes. Researchers discovered that phasons, a ...

This ceramic-based mirror-image function of a conventional thermal switch instead electrically controls flow of thermal ...

Key TakeawaysResearchers have discovered that phasons, low-temperature quasiparticles found in crystal lattices, enable interlayer excitons to move at ...

In an ultra-cold, high-magnetic-field setting, ZrTe5 defies expectations by showing quantum heat oscillations. Researchers ...

Researchers have discovered that phasons, low-temperature quasiparticles found in crystal lattices, enable interlayer ...

Here, the authors report the observation and manipulation of HShPs in twisted bilayers α-MoO 3 by tuning the sample structure or using a graphene electrostatic gate. Polaritonic Fourier crystal ...

Ferromagnetism is a form of magnetic ordering in which the intrinsic magnetic dipole moment, or spin, of electrons on each crystal-lattice ... rhombohedral multilayer graphene shows a large ...