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Coupling to octahedral tilts in halide perovskite nanocrystals induces phonon-mediated attractive interactions between excitons
Yazdani, N., Bodnarchuk, M. I., Bertolotti, F., Masciocchi, N., Fureraj, I., Guzelturk, B., … Lindenberg, A. M. (2024). Coupling to octahedral tilts in halide perovskite nanocrystals induces phonon-mediated attractive interactions between excitons. Nature Physics, 20, 47-53. https://doi.org/10.1038/s41567-023-02253-7
Coexistence and coupling of ferroelectricity and magnetism in an oxide two-dimensional electron gas
Bréhin, J., Chen, Y., D'Antuono, M., Varotto, S., Stornaiuolo, D., Piamonteze, C., … Bibes, M. (2023). Coexistence and coupling of ferroelectricity and magnetism in an oxide two-dimensional electron gas. Nature Physics, 19, 823-829. https://doi.org/10.1038/s41567-023-01983-y
Strong phonon softening and avoided crossing in aliovalence-doped heavy-band thermoelectrics
Han, S., Dai, S., Ma, J., Ren, Q., Hu, C., Gao, Z., … Zhu, T. (2023). Strong phonon softening and avoided crossing in aliovalence-doped heavy-band thermoelectrics. Nature Physics, 19, 1649-1657. https://doi.org/10.1038/s41567-023-02188-z
Non-trivial band topology and orbital-selective electronic nematicity in a titanium-based kagome superconductor
Hu, Y., Le, C., Zhang, Y., Zhao, Z., Liu, J., Ma, J., … Shi, M. (2023). Non-trivial band topology and orbital-selective electronic nematicity in a titanium-based kagome superconductor. Nature Physics, 19, 1827-1833. https://doi.org/10.1038/s41567-023-02215-z
Demonstration of momentum cooling to enhance the potential of cancer treatment with proton therapy
Maradia, V., Meer, D., Dölling, R., Weber, D. C., Lomax, A. J., & Psoroulas, S. (2023). Demonstration of momentum cooling to enhance the potential of cancer treatment with proton therapy. Nature Physics, 19, 1437-1444. https://doi.org/10.1038/s41567-023-02115-2
Momentum cooling can improve transmission rates for proton therapy
Maradia, V., & Psoroulas, S. (2023). Momentum cooling can improve transmission rates for proton therapy. Nature Physics, 19(10), 1398-1399. https://doi.org/10.1038/s41567-023-02116-1
Quantum disordered ground state in the triangular-lattice magnet NaRuO<sub>2</sub>
Ortiz, B. R., Sarte, P. M., Hendler Avidor, A., Hay, A., Kenney, E., Kolesnikov, A. I., … Wilson, S. D. (2023). Quantum disordered ground state in the triangular-lattice magnet NaRuO2. Nature Physics, 19, 943-949. https://doi.org/10.1038/s41567-023-02039-x
Resonant enhancement of photo-induced superconductivity in K<sub>3</sub>C<sub>60</sub>
Rowe, E., Yuan, B., Buzzi, M., Jotzu, G., Zhu, Y., Fechner, M., … Cavalleri, A. (2023). Resonant enhancement of photo-induced superconductivity in K3C60. Nature Physics, 19, 1821-1826. https://doi.org/10.1038/s41567-023-02235-9
Tunable topologically driven Fermi arc van Hove singularities
Sanchez, D. S., Cochran, T. A., Belopolski, I., Cheng, Z. J., Yang, X. P., Liu, Y., … Hasan, M. Z. (2023). Tunable topologically driven Fermi arc van Hove singularities. Nature Physics, 19, 682-688. https://doi.org/10.1038/s41567-022-01892-6
Observation of triple J/ψ meson production in proton-proton collisions
Tumasyan, A., Adam, W., Andrejkovic, J. W., Bergauer, T., Chatterjee, S., Damanakis, K., … Vetens, W. (2023). Observation of triple J/ψ meson production in proton-proton collisions. Nature Physics, 19(3), 338-350. https://doi.org/10.1038/s41567-022-01838-y
Intrinsic magnetism in superconducting infinite-layer nickelates
Fowlie, J., Hadjimichael, M., Martins, M. M., Li, D., Osada, M., Wang, B. Y., … Suter, A. (2022). Intrinsic magnetism in superconducting infinite-layer nickelates. Nature Physics, 18, 1043-1047. https://doi.org/10.1038/s41567-022-01684-y
Two qubits for the price of one ion
Hempel, C. (2022). Two qubits for the price of one ion. Nature Physics, 18, 965-966. https://doi.org/10.1038/s41567-022-01713-w
Real-space imaging of phase transitions in bridged artificial kagome spin ice
Hofhuis, K., Skjærvø, S. H., Parchenko, S., Arava, H., Luo, Z., Kleibert, A., … Heyderman, L. J. (2022). Real-space imaging of phase transitions in bridged artificial kagome spin ice. Nature Physics, 18, 699-705. https://doi.org/10.1038/s41567-022-01564-5
Spin-excitation anisotropy in the nematic state of detwinned FeSe
Lu, X., Zhang, W., Tseng, Y., Liu, R., Tao, Z., Paris, E., … Schmitt, T. (2022). Spin-excitation anisotropy in the nematic state of detwinned FeSe. Nature Physics, 18(7), 806-812. https://doi.org/10.1038/s41567-022-01603-1
Josephson diode effect from Cooper pair momentum in a topological semimetal
Pal, B., Chakraborty, A., Sivakumar, P. K., Davydova, M., Gopi, A. K., Pandeya, A. K., … Parkin, S. S. P. (2022). Josephson diode effect from Cooper pair momentum in a topological semimetal. Nature Physics, 18, 1228-1233. https://doi.org/10.1038/s41567-022-01699-5
Direct observation of a dynamical glass transition in a nanomagnetic artificial Hopfield network
Saccone, M., Caravelli, F., Hofhuis, K., Parchenko, S., Birkhölzer, Y. A., Dhuey, S., … Farhan, A. (2022). Direct observation of a dynamical glass transition in a nanomagnetic artificial Hopfield network. Nature Physics, 18, 517-521. https://doi.org/10.1038/s41567-022-01538-7
Measurement of the Higgs boson width and evidence of its off-shell contributions to ZZ production
Tumasyan, A., Adam, W., Andrejkovic, J. W., Bergauer, T., Chatterjee, S., Damanakis, K., … Vetens, W. (2022). Measurement of the Higgs boson width and evidence of its off-shell contributions to ZZ production. Nature Physics, 18, 1329-1334. https://doi.org/10.1038/s41567-022-01682-0
Experimental observation of vortex rings in a bulk magnet
Donnelly, C., Metlov, K. L., Scagnoli, V., Guizar-Sicairos, M., Holler, M., Bingham, N. S., … Gliga, S. (2021). Experimental observation of vortex rings in a bulk magnet. Nature Physics, 17, 316-321. https://doi.org/10.1038/s41567-020-01057-3
Split superconducting and time-reversal symmetry-breaking transitions in Sr<sub>2</sub>RuO<sub>4</sub> under stress
Grinenko, V., Ghosh, S., Sarkar, R., Orain, J. C., Nikitin, A., Elender, M., … Klauss, H. H. (2021). Split superconducting and time-reversal symmetry-breaking transitions in Sr2RuO4 under stress. Nature Physics, 17, 748-754. https://doi.org/10.1038/s41567-021-01182-7
Clocking Auger electrons
Haynes, D. C., Wurzer, M., Schletter, A., Al-Haddad, A., Blaga, C., Bostedt, C., … Cavalieri, A. L. (2021). Clocking Auger electrons. Nature Physics, 17(4), 512-518. https://doi.org/10.1038/s41567-020-01111-0
 

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