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Analysis of substances uncovered in embalming workshop gives insight into the mummification process, and how CAR T therapies could turbocharge cancer treatments.
A recently discovered high-mass X-ray binary has an evolutionary history showing the neutron star component formed during an ultra-stripped supernova, and has orbital elements that should allow for forming a binary neutron star in the future.
Philological analysis of labels and instructions, together with gas chromatography–mass spectrometry analysis of residues on vessels recovered from a 26th Dynasty embalming workshop at Saqqara, Egypt provide insights into ancient Egyptian embalming practices.
A type of universal scattering resonance between ultracold microwave-dressed polar molecules associated with field-linked tetramer bound states in the long-range potential well is observed, providing a general strategy for resonant scattering between ultracold polar molecules.
A well-preserved 319-million-year-old brain of the extinct vertebrate Coccocephalus wildi provides insights into neural anatomy deep within the phylogeny of ray-finned fish.
Observations of a pronounced and narrow Feshbach resonance in collisions between two triplet ground-state NaLi molecules are described, providing evidence for the existence of long-lived coherent intermediate complexes even in systems without reaction barriers.
As solid tumours develop, cancer cells shed energetically expensive tissue-specific functions, enabling uncontrolled growth despite a limited ability to produce ATP.
Imaging mass cytometry of human brain tumours provides spatial information that, combined with existing transcriptomic data, reveals the existence of a cellular neighbourhood containing a rare macrophage population associated with prolonged survival.
Experiments demonstrate the powerful capabilities of ultracold molecules to study dynamics in the context of quantum magnetism, and create new possibilities for studying quantum physics with ultracold molecules more broadly.
The authors measure the nucleon axial vector form factor, which encodes information on the distribution of the nucleon weak charge, through antineutrino–proton scattering.
We report full-colour, vertically stacked µLEDs that achieve exceptionally high array density (5,100 pixels per inch) and small size (4 µm) via a 2D material-based layer transfer technique, allowing the creation of full-colour µLED displays for augmented and virtual reality.
Cryo-EM is used to visualize the SARS-CoV-2 RTC bound to each of the natural NTPs as well as remdesivir triphosphate (RDV-TP) in states poised for incorporation, explaining the interactions required for NTP recognition and RDV-TP selectivity.
In black phosphorus, a model semiconductor, analysis of time and angle-resolved photoemission spectroscopy measurements demonstrates a strong light-induced band renormalization with light polarization dependence, suggesting pseudospin-selective Floquet band engineering.
Tunable itinerant spin dynamics enabled by dipolar interactions are demonstrated with polar molecules, establishing an interacting spin platform that allows for exploration of many-body spin dynamics and spin-motion physics using strong, tunable dipolar interaction.
