The 'quantum' principle that says why atoms are as they areThe Pauli exclusion principle is key to understanding the stability of matter and the behavior of different materials.
Light-wave-controlled Haldane model in monolayer hexagonal boron nitride - NatureDiscrete symmetries like spatial inversion and time reversal influence material properties. Breaking these symmetries can lead to bandgap formation and distinct carrier dynamics.
The 'quantum' principle that says why atoms are as they areThe Pauli exclusion principle is key to understanding the stability of matter and the behavior of different materials.
Light-wave-controlled Haldane model in monolayer hexagonal boron nitride - NatureDiscrete symmetries like spatial inversion and time reversal influence material properties. Breaking these symmetries can lead to bandgap formation and distinct carrier dynamics.
Best Cooling Sheet Sets for SummerFinding the right material and weave is crucial for effective cooling sheets.
Suppressed thermal transport in silicon nanoribbons by inhomogeneous strain - NatureNanoscale structures with inhomogeneous strains lead to significant thermal conductivity reduction, highlighting new insights into lattice dynamics.First study showcasing the impact of inhomogeneous strains on thermal transport and lattice dynamics in nanoscale structures.