Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Presenting a series of interferometric images of R Doradus, this study reveals prominent convective structures on the surface of this giant evolved star that have a timescale of about one month.
A molecular aggregate formed in a two-dimensional organic–inorganic hybrid perovskite superlattice with a near-equilibrium distance is shown to have a near-unity photoluminescence quantum yield like that of single molecules, despite being in an aggregated state.
A study demonstrates the application of Floquet Hamiltonian engineering to ultracold trapped polar molecules to realize interactions relevant to quantum metrology and many-body physics.
Using cross-areal mapping of axonal projections in the mouse neocortex, we identify the subtype-specific developmental dynamics of extratelencephalic neurons and show the functional transcriptional programs driving extratelencephalic neuron diversity.
Harnessing precise molecular kinetics, a 14-bit, energy-efficient dot product engine is realized that unlocks neuromorphic hardware’s potential for core computations.
A technique for threading long protein strands through a nanopore by electrophoresis and back using a protein unfoldase motor, ClpX, enables single protein molecules to be analyzed multiple times with single-amino-acid sensitivity.
In situ experimental findings from six contrasting oceanic regimes, at multiple mesopelagic depths, are used to determine the mechanisms that drive microbially mediated carbon flux attenuation in the oceanic biological pump.
An analysis of 15 ancient genomes from individuals dating to AD 1670–1950 from Rapa Nui (also known as Easter Island) addresses questions about the population history of the island.
A method using semi-stable edge of chaos in LaCoO3 enables continuous signal amplification in metallic conductors without separate amplifiers, potentially revolutionizing electronic chip design.
Understanding how extreme solar storms affect radiocarbon dating has made it possible to obtain calendar ages with annual precision, and future studies could yield insights into archaeology, solar physics and Earth science.
The one-dimensional laser cooling of positronium enables testing of quantum electrodynamics and could realize Bose–Einstein condensation in positronium.
Genome-wide characterization of solute-binding proteins in SAR11, a group of ubiquitous marine bacteria, reveals that they generally combine high binding affinities with narrow binding specificities, suggesting a molecular mechanism for the adaptation of SAR11 to diverse marine environments.
The charge carrier polarity and concentrations in an emissive perovskite semiconductor can be adjusted by incorporating a molecular dopant widely used for the passivation and structural control of optoelectronic perovskite materials.
Neurons in the dorsal motor nucleus of vagus are involved in the absorption of fat in the intestine, and the natural compound puerarin shows utility in modulating this brain–gut axis to reduce fat absorption.
Durable agonism of NPR1 achieved with a novel investigational monoclonal antibody could mirror the positive hemodynamic changes in blood pressure and heart failure identified in humans with lifelong exposure to NPR1 coding variants.