ββA rapid and efficient method developed to create stem-cell-based 3D mini-organs derived from the cells of patients offers a way to evaluate personalized treatments using RNA therapies for rare genetic diseases
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ββTissues eliminate unwanted cells through cell extrusion, but the factors determining whether these extuded cells live or die are not fully understood. Now force transmission across adherens junctions is shown to have a role in shaping their fate.
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ββThe thousands of nuclear spins surrounding gallium arsenide quantum dots can interface with electron spin qubits and photons. With quantum engineering, this nuclear spin ensemble becomes a robust register for quantum information storage.
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ββQuantum error correction is essential for reliable quantum computing, but no single code supports all required fault-tolerant gates. The demonstration of switching between two codes now enables universal quantum computation with reduced overhead.
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ββElectron qubits in solid-state systems often couple to nuclear spins in the surrounding material, causing decoherence. Now, nuclear spins in silicon have been put into a dark state, which could improve qubit coherence for quantum applications.
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ββCoherent control of chemical reactions is a central theme in quantum chemistry. Now, a cold atom experiment demonstrates a method for steering the outcome of three-body recombination processes using a tunable Feshbach resonance.
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ββThe ALPHA Collaboration reports measurements of the hyperfine components of the 1Sβ2S transition in trapped antihydrogen. They interpret the results as a test of the invariance of chargeβparityβtime-reversal symmetry.
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ββThermal agitation of charge carriers, known as Johnson noise, is the dominant noise in electronic circuits. Now it has also been observed as a key noise source in integrated electro-optic photonic circuits, posing challenges for future applications.
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ββThe effect of strong interactions on the physics hosted by flat bands remains largely unexplored in atomic systems. An experiment in a synthetic flat-band lattice now demonstrates an interaction-driven transition from localization to delocalization.
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ββA liquidβliquid transition in supercooled water has long been predicted. State-of-the-art simulations now precisely confine the temperature and pressure ranges for this transition, which are found to be within experimental reach.
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