Water, energy, and carbon dioxide footprints of the construction sector: A case study on developed and developing economies.

Buildings and construction are major driver of anthropogenic environmental effects. While energy use and CO emissions of buildings and construction have been quantified, their water footprint remains understudied from an economy-wide perspective. We use environmentally-extended multi-regional input-output analysis to quantify the water, energy and carbon (dioxide) footprints associated with the construction sector of India, Italy, South Africa, and the UK, disaggregating the supply chains driving these environmental effects by using structural path analysis.

Implementation of a quantum metamaterial using superconducting qubits.

The key issue for the implementation of a metamaterial is to demonstrate the existence of collective modes corresponding to coherent oscillations of the meta-atoms. Atoms of natural materials interact with electromagnetic fields as quantum two-level systems. Artificial quantum two-level systems can be made, for example, using superconducting nonlinear resonators cooled down to their ground state.

Stabilizing the magnetic moment of single holmium atoms by symmetry.

Single magnetic atoms, and assemblies of such atoms, on non-magnetic surfaces have recently attracted attention owing to their potential use in high-density magnetic data storage and as a platform for quantum computing. A fundamental problem resulting from their quantum mechanical nature is that the localized magnetic moments of these atoms are easily destabilized by interactions with electrons, nuclear spins and lattice vibrations of the substrate. Even when large magnetic fields are applied to stabilize the magnetic moment, the observed lifetimes remain rather short (less than a microsecond).