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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Nature Physics
© 2024 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.
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Nature Physics
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https://www.nature.com/articles/s41567-024-02447-7
Nature Physics, Published online: 27 March 2024; doi:10.1038/s41567-024-02447-7Even by shining classical light on a single opening, one can perform a double-slit experiment and discover a surprising variety of quantum mechanical multi-photon correlations — thanks to surface plasmon polaritons and photon-number-resolving detectors.]]>
Martijn Wubs
doi:10.1038/s41567-024-02447-7
Nature Physics, Published online: 2024-03-27; | doi:10.1038/s41567-024-02447-7
2024-03-27
Nature Physics
10.1038/s41567-024-02447-7
https://www.nature.com/articles/s41567-024-02447-7
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https://www.nature.com/articles/s41567-024-02466-4
Nature Physics, Published online: 27 March 2024; doi:10.1038/s41567-024-02466-4Two adjacent layers flowing at different velocities in the same fluid are subject to flow instabilities. This phenomenon is now studied in atomic superfluids, revealing that quantized vortices act as both sources and probes of the unstable flow.]]>
D. Hernández-RajkovN. GraniF. ScazzaG. Del PaceW. J. KwonM. InguscioK. XhaniC. FortM. ModugnoF. MarinoG. Roati
doi:10.1038/s41567-024-02466-4
Nature Physics, Published online: 2024-03-27; | doi:10.1038/s41567-024-02466-4
2024-03-27
Nature Physics
10.1038/s41567-024-02466-4
https://www.nature.com/articles/s41567-024-02466-4
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https://www.nature.com/articles/s41567-024-02436-w
Nature Physics, Published online: 26 March 2024; doi:10.1038/s41567-024-02436-wInteractions of atmospheric neutrinos with quantum-gravity-induced fluctuations of the metric of spacetime would lead to decoherence. The IceCube Collaboration constrains such interactions with atmospheric neutrinos.]]>
R. AbbasiM. AckermannJ. AdamsS. K. AgarwallaJ. A. AguilarM. AhlersJ. M. AlameddineN. M. AminK. AndeenG. AntonC. ArgüellesY. AshidaS. AthanasiadouL. AusbormS. N. AxaniX. BaiA. Balagopal VM. BaricevicS. W. BarwickV. BasuR. BayJ. J. BeattyJ. Becker TjusJ. BeiseC. BellenghiC. BenningS. BenZviD. BerleyE. BernardiniD. Z. BessonE. BlaufussS. BlotF. BontempoJ. Y. BookC. Boscolo MeneguoloS. BöserO. BotnerJ. BöttcherJ. BraunB. BrinsonJ. Brostean-KaiserL. BrusaR. T. BurleyR. S. BusseD. ButterfieldM. A. CampanaK. CarloniE. G. Carnie-BroncaS. ChattopadhyayN. ChauC. ChenZ. ChenD. ChirkinS. ChoiB. A. ClarkA. ColemanG. H. CollinA. ConnollyJ. M. ConradP. CoppinP. CorreaD. F. CowenP. DaveC. De ClercqJ. J. DeLaunayD. DelgadoS. DengK. DeoskarA. DesaiP. DesiatiK. D. de VriesG. de WasseigeT. DeYoungA. DiazJ. C. Díaz-VélezM. DittmerA. DomiH. DujmovicM. A. DuVernoisT. EhrhardtA. EimerP. EllerE. EllingerS. El MentawiD. ElsässerR. EngelH. ErpenbeckJ. EvansP. A. EvensonK. L. FanK. FangK. FarragA. R. FazelyA. FedynitchN. FeiglS. FiedlschusterC. FinleyL. FischerD. FoxA. FranckowiakP. FürstJ. GallagherE. GansterA. GarciaL. GerhardtA. GhadimiC. GlaserT. GlüsenkampJ. G. GonzalezD. GrantS. J. GrayO. GriesS. GriffinS. GriswoldK. M. GrothC. GüntherP. GutjahrC. HaC. HaackA. HallgrenR. HallidayL. HalveF. HalzenH. HamdaouiM. Ha MinhM. HandtK. HansonJ. HardinA. A. HarnischP. HatchA. HaungsJ. HäußlerK. HelbingJ. HellrungJ. HermannsgabnerL. HeuermannN. HeyerS. HickfordA. HidvegiC. HillG. C. HillK. D. HoffmanS. HoriK. HoshinaW. HouT. HuberK. HultqvistM. HünnefeldR. HussainK. HymonS. InA. IshiharaM. JacquartO. JanikM. JanssonG. S. JaparidzeM. JeongM. JinB. J. P. JonesN. KampD. KangW. KangX. KangA. KappesD. KappesserL. KardumT. KargM. KarlA. KarleA. KatilU. KatzM. KauerJ. L. KelleyA. Khatee ZathulA. KheirandishJ. KirylukS. R. KleinA. KochockiR. KoiralaH. KolanoskiT. KontrimasL. KöpkeC. KopperD. J. KoskinenP. KoundalM. KovacevichM. KowalskiT. KozynetsJ. KrishnamoorthiK. KruiswijkE. KrupczakA. KumarE. KunN. KurahashiN. LadC. Lagunas GualdaM. LamoureuxM. J. LarsonS. LatsevaF. LauberJ. P. LazarJ. W. LeeK. Leonard DeHoltonA. LeszczyńskaM. LincettoY. LiuM. LiubarskaE. LohfinkC. LoveC. J. Lozano MariscalL. LuF. LucarelliW. LuszczakY. LyuJ. MadsenE. MagnusK. B. M. MahnY. MakinoE. ManaoS. MancinaW. Marie SainteI. C. MarişS. MarkaZ. MarkaM. MarseeI. Martinez-SolerR. MaruyamaF. MayhewT. McElroyF. McNallyJ. V. MeadK. MeagherS. MechbalA. MedinaM. MeierY. MerckxL. MertenJ. MicallefJ. MitchellT. MontaruliR. W. MooreY. MoriiR. MorseM. MoulaiT. MukherjeeR. NaabR. NagaiM. NakosU. NaumannJ. NeckerA. NegiM. NeumannH. NiederhausenM. U. NisaA. NoellA. NovikovS. C. NowickiA. Obertacke PollmannV. O’DellB. OeyenA. OlivasR. OrsoeJ. OsbornE. O’SullivanH. PandyaN. ParkG. K. ParkerE. N. PaudelL. PaulC. Pérez de los HerosT. PerniceJ. PetersonS. PhilippenA. PizzutoM. PlumA. PonténY. PopovychM. Prado RodriguezB. PriesR. Procter-MurphyG. T. PrzybylskiC. RaabJ. Rack-HelleisK. RawlinsZ. RechavA. RehmanP. ReichherzerE. ResconiS. ReuschW. RhodeB. RiedelA. RifaieE. J. RobertsS. RobertsonS. RodanG. RoellinghoffM. RongenA. RostedC. RottT. RuheL. RuohanD. RyckboschI. SafaJ. SafferD. Salazar-GallegosP. SampathkumarS. E. Sanchez HerreraA. SandrockM. SantanderS. SarkarS. SarkarJ. SavelbergP. SavinaM. SchaufelH. SchielerS. SchindlerL. SchlickmannB. SchlüterF. SchlüterN. SchmeisserT. SchmidtJ. SchneiderF. G. SchröderL. SchumacherS. SclafaniD. SeckelM. SeikhS. SeunarineR. ShahS. ShefaliN. ShimizuM. SilvaB. SkrzypekB. SmithersR. SnihurJ. SoedingreksoA. SøgaardD. SoldinP. SoldinG. SommaniC. SpannfellnerG. M. SpiczakC. SpieringM. StamatikosT. StanevT. StezelbergerT. StürwaldT. StuttardG. W. SullivanI. TaboadaS. Ter-AntonyanA. TerliukM. ThiesmeyerW. G. ThompsonJ. ThwaitesS. TilavK. TollefsonC. TönnisS. ToscanoD. TosiA. TrettinC. F. TungR. TurcotteJ. P. TwagirayezuM. A. Unland ElorrietaA. K. UpadhyayK. UpshawA. VaidyanathanN. Valtonen-MattilaJ. VandenbrouckeN. van EijndhovenD. VanneromJ. van SantenJ. VaraJ. Veitch-MichaelisM. VenugopalM. VereeckenS. VerpoestD. VeskeA. VijaiC. WalckY. WangC. WeaverP. WeigelA. WeindlJ. WeldertA. Y. WenC. WendtJ. WerthebachM. WeyrauchN. WhitehornC. H. WiebuschD. R. WilliamsL. WitthausA. WolfM. WolfG. WredeX. W. XuJ. P. YanezE. YildizciS. YoshidaR. YoungS. YuT. YuanZ. ZhangP. ZhelninP. ZilbermanM. Zimmerman
doi:10.1038/s41567-024-02436-w
Nature Physics, Published online: 2024-03-26; | doi:10.1038/s41567-024-02436-w
2024-03-26
Nature Physics
10.1038/s41567-024-02436-w
https://www.nature.com/articles/s41567-024-02436-w
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https://www.nature.com/articles/s41567-024-02435-x
Nature Physics, Published online: 22 March 2024; doi:10.1038/s41567-024-02435-xExperiments probing three-dimensional crack propagation show that the critical strain energy needed to drive a crack is directly proportional to its geodesic length. This insight is a step towards a fully three-dimensional theory of crack propagation.]]>
Xinyue WeiChenzhuo LiCían McCarthyJohn M. Kolinski
doi:10.1038/s41567-024-02435-x
Nature Physics, Published online: 2024-03-22; | doi:10.1038/s41567-024-02435-x
2024-03-22
Nature Physics
10.1038/s41567-024-02435-x
https://www.nature.com/articles/s41567-024-02435-x
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https://www.nature.com/articles/s41567-023-02344-5
Nature Physics, Published online: 20 March 2024; doi:10.1038/s41567-023-02344-5Stable regions in four-dimensional phase space have been observed by following the motion of accelerated proton beams subject to nonlinear forces. This provides insights into the physics of dynamical systems and may lead to improved accelerator designs.]]>
Giulio Stancari
doi:10.1038/s41567-023-02344-5
Nature Physics, Published online: 2024-03-20; | doi:10.1038/s41567-023-02344-5
2024-03-20
Nature Physics
10.1038/s41567-023-02344-5
https://www.nature.com/articles/s41567-023-02344-5
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https://www.nature.com/articles/s41567-023-02338-3
Nature Physics, Published online: 20 March 2024; doi:10.1038/s41567-023-02338-3Nonlinear resonances can cause particle loss in accelerators. Experiments confirm that a coupled nonlinear resonance traps beam particles on a four-dimensional closed curve. This finding allows the development of mitigation strategies.]]>
H. BartosikG. FranchettiF. Schmidt
doi:10.1038/s41567-023-02338-3
Nature Physics, Published online: 2024-03-20; | doi:10.1038/s41567-023-02338-3
2024-03-20
Nature Physics
10.1038/s41567-023-02338-3
https://www.nature.com/articles/s41567-023-02338-3
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https://www.nature.com/articles/s41567-024-02429-9
Nature Physics, Published online: 20 March 2024; doi:10.1038/s41567-024-02429-9A mechanism for the phase transition of charge density wave states via the generation and proliferation of topological defects with opposite phase windings is demonstrated in a heavy-fermion superconductor.]]>
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Anuva AishwaryaJulian May-MannAvior AlmoalemSheng RanShanta R. SahaJohnpierre PaglioneNicholas P. ButchEduardo FradkinVidya Madhavan
doi:10.1038/s41567-024-02429-9
Nature Physics, Published online: 2024-03-20; | doi:10.1038/s41567-024-02429-9
2024-03-20
Nature Physics
10.1038/s41567-024-02429-9
https://www.nature.com/articles/s41567-024-02429-9
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https://www.nature.com/articles/s41567-024-02439-7
Nature Physics, Published online: 18 March 2024; doi:10.1038/s41567-024-02439-7Exploring and exploiting electric dipole arrangements analogously to what is possible with magnetic spin textures is an emerging prospect. Now a spontaneous toroidal polar topology is observed in ferroelectric liquid crystals.]]>
Jidan YangYu ZouJinxing LiMingjun HuangSatoshi Aya
doi:10.1038/s41567-024-02439-7
Nature Physics, Published online: 2024-03-18; | doi:10.1038/s41567-024-02439-7
2024-03-18
Nature Physics
10.1038/s41567-024-02439-7
https://www.nature.com/articles/s41567-024-02439-7