RSS Nature Physics

RSS Nature Physics

Nature Physics offers news and reviews alongside top-quality research papers in a monthly publication, covering the entire spectrum of physics. Physics addresses the properties and interactions of matter and energy, and plays a key role in the development of a broad range of technologies. To reflect this, Nature Physics covers all areas of pure and applied physics research. The journal focuses on core physics disciplines, but is also open to a broad range of topics whose central theme falls within the bounds of physics.
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  1. Collective transitions from orbiting to matrix invasion in three-dimensional multicellular spheroids
    Nature Physics, Published online: 26 January 2026; doi:10.1038/s41567-025-03150-x Symmetry breaking is key to tissue formation. Now it is shown that symmetry breaking of epithelial spheroids is controlled by an interplay of collective migration with curvature and matrix remodelling.
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  2. Magnon-Cherenkov effect from a picosecond strain pulse
    Nature Physics, Published online: 23 January 2026; doi:10.1038/s41567-025-03137-8 Coherent spin waves—quantized into magnons—can be emitted as Cherenkov radiation, but their experimental realization is hindered by the lack of fast-moving magnetic perturbations. Now, a picosecond strain pulse is shown to induce this effect.
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  3. Demonstration of low-overhead quantum error correction codes
    Nature Physics, Published online: 22 January 2026; doi:10.1038/s41567-025-03157-4 Quantum low-density parity-check error correction codes are anticipated to deliver high performance, but require long-range qubit–qubit interactions. Two of these error correction codes have now been successfully implemented on a superconducting device.
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  4. Orbital Seebeck effect induced by chiral phonons
    Nature Physics, Published online: 21 January 2026; doi:10.1038/s41567-025-03134-x Generation of orbital currents in a non-magnetic material can be useful to build efficient orbitronic devices. Now, the interplay of chiral phonons and electrons is shown to produce orbital currents in α-quartz.
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  5. Orbital current from phonons
    Nature Physics, Published online: 21 January 2026; doi:10.1038/s41567-025-03139-6 Chiral phonons, quasiparticles of lattice vibrations arising from circular atomic motion, hold potential as carriers of angular momentum for next-generation technologies. Experiments show that they can generate orbital currents under thermal gradients.
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  6. Strong correlations and superconductivity in the supermoiré lattice
    Nature Physics, Published online: 20 January 2026; doi:10.1038/s41567-025-03131-0 When two moiré patterns interfere with each other, they produce a longer-wavelength supermoiré pattern. Now, the effects of a supermoiré lattice on the band structure and transport properties of twisted trilayer graphene is investigated.
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  7. Dynamical simulations of many-body quantum chaos on a quantum computer
    Nature Physics, Published online: 20 January 2026; doi:10.1038/s41567-025-03144-9 Studying many-body quantum chaos on current quantum hardware is hindered by noise and limited scalability. Now it is shown that a superconducting processor, combined with error mitigation, can accurately simulate dual-unitary circuit dynamics.
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  8. Driving Floquet physics with excitonic fields
    Nature Physics, Published online: 19 January 2026; doi:10.1038/s41567-025-03132-z Floquet engineering is often limited by weak light–matter coupling and heating. Now it is shown that exciton-driven fields in monolayer semiconductors produce stronger, longer-lived Floquet effects and reveal hybridization linked to excitonic phases.
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