Li, A. et al. Exceptional points and non-Hermitian photonics at the nanoscale. Nat. Nanotechnol. 18, 706\u2013720 (2023).<\/p>\n
Article<\/a>\u00a0 Yin, X. & Zhang, X. Unidirectional light propagation at exceptional points. Nat. Mater. 12, 175\u2013177 (2013).<\/p>\n Article<\/a>\u00a0 Peng, B. et al. Loss-induced suppression and revival of lasing. Science 346, 328\u2013332 (2014).<\/p>\n Article<\/a>\u00a0 Doppler, J. et al. Dynamically encircling an exceptional point for asymmetric mode switching. Nature 537, 76\u201379 (2016).<\/p>\n Article<\/a>\u00a0 Nasari, H. et al. Observation of chiral state transfer without encircling an exceptional point. Nature 605, 256\u2013261 (2022).<\/p>\n Article<\/a>\u00a0 Liu, W., Wu, Y., Duan, C.-K., Rong, X. & Du, J. Dynamically encircling an exceptional point in a real quantum system. Phys. Rev. Lett. 126, 170506 (2021).<\/p>\n Article<\/a>\u00a0 Song, Q., Odeh, M., Z\u00fa\u00f1iga-P\u00e9rez, J., Kant\u00e9, B. & Genevet, P. Plasmonic topological metasurface by encircling an exceptional point. Science 373, 1133\u20131137 (2021).<\/p>\n Article<\/a>\u00a0 Ding, F., Deng, Y., Meng, C., Thrane, P. C. & Bozhevolnyi, S. I. Electrically tunable topological phase transition in non-Hermitian optical MEMS metasurfaces. Sci. Adv. 10, eadl4661 (2024).<\/p>\n Article<\/a>\u00a0 Miri, M.-A. & Alu, A. Exceptional points in optics and photonics. Science 363, eaar7709 (2019).<\/p>\n Article<\/a>\u00a0 Wang, C., Sweeney, W. R., Stone, A. D. & Yang, L. Coherent perfect absorption at an exceptional point. Science 373, 1261\u20131265 (2021).<\/p>\n Article<\/a>\u00a0 Ergoktas, M. S. et al. Topological engineering of terahertz light using electrically tunable exceptional point singularities. Science 376, 184\u2013188 (2022).<\/p>\n Article<\/a>\u00a0 Wu, Y. et al. Third-order exceptional line in a nitrogen-vacancy spin system. Nat. Nanotechnol. 19, 160\u2013165 (2024).<\/p>\n Article<\/a>\u00a0 Loughlin, H. & Sudhir, V. Exceptional-point sensors offer no fundamental signal-to-noise ratio enhancement. Phys. Rev. Lett. 132, 243601 (2024).<\/p>\n Article<\/a>\u00a0 Lai, Y.-H., Lu, Y.-K., Suh, M.-G., Yuan, Z. & Vahala, K. Observation of the exceptional-point-enhanced sagnac effect. Nature 576, 65\u201369 (2019).<\/p>\n Article<\/a>\u00a0 Liu, J., Chen, L., He, F. & Zhu, K.-D. Gravitational waves detection with exceptional points in micro cavities. Preprint at https:\/\/arxiv.org\/abs\/2001.09462<\/a> (2020).<\/p>\n Wu, Y. et al. Observation of parity-time symmetry breaking in a single-spin system. Science 364, 878\u2013880 (2019).<\/p>\n Article<\/a>\u00a0 Wang, H., Lai, Y.-H., Yuan, Z., Suh, M.-G. & Vahala, K. Petermann-factor sensitivity limit near an exceptional point in a Brillouin ring laser gyroscope. Nat. Commun. 11, 1610 (2020).<\/p>\n Article<\/a>\u00a0 Naikoo, J., Chhajlany, R. W. & Ko\u0142ody\u0144ski, J. Multiparameter estimation perspective on non-Hermitian singularity-enhanced sensing. Phys. Rev. Lett. 131, 220801 (2023).<\/p>\n Article<\/a>\u00a0 Lau, H.-K. & Clerk, A. A. Fundamental limits and non-reciprocal approaches in non-Hermitian quantum sensing. Nat. Commun. 9, 4320 (2018).<\/p>\n Article<\/a>\u00a0 Chen, W., Kaya \u00d6zdemir, \u015e, Zhao, G., Wiersig, J. & Yang, L. Exceptional points enhance sensing in an optical microcavity. Nature 548, 192\u2013196 (2017).<\/p>\n Article<\/a>\u00a0 Hodaei, H. et al. Enhanced sensitivity at higher-order exceptional points. Nature 548, 187\u2013191 (2017).<\/p>\n Article<\/a>\u00a0 Kononchuk, R., Cai, J., Ellis, F., Thevamaran, R. & Kottos, T. Exceptional-point-based accelerometers with enhanced signal-to-noise ratio. Nature 607, 697\u2013702 (2022).<\/p>\n Article<\/a>\u00a0 Xu, J. et al. Single-cavity loss-enabled nanometrology. Nat. Nanotechnol. 19, 1472\u20131477 (2024).<\/p>\n Article<\/a>\u00a0 Ruan, Y.-P. et al. Observation of loss-enhanced magneto-optical effect. Nat. Photonics 19, 109\u2013115 (2025).<\/p>\n Article<\/a>\u00a0 Langbein, W. No exceptional precision of exceptional-point sensors. Phys. Rev. A 98, 023805 (2018).<\/p>\n Article<\/a>\u00a0 Chen, C., Jin, L. & Liu, R.-B. Sensitivity of parameter estimation near the exceptional point of a non-Hermitian system. New J. Phys. 21, 083002 (2019).<\/p>\n Article<\/a>\u00a0 Bai, K. et al. Observation of nonlinear exceptional points with a complete basis in dynamics. Phys. Rev. Lett. 132, 073802 (2024).<\/p>\n Article<\/a>\u00a0 Bai, K. et al. Nonlinear exceptional points with a complete basis in dynamics. Phys. Rev. Lett. 130, 266901 (2023).<\/p>\n Article<\/a>\u00a0 Bai, K. et al. Nonlinearity-enabled higher-order exceptional singularities with ultra-enhanced signal-to-noise ratio. Natl Sci. Rev. 10, nwac259 (2023).<\/p>\n Article<\/a>\u00a0 Suntharalingam, A., Fern\u00e1ndez-Alc\u00e1zar, L., Kononchuk, R. & Kottos, T. Noise resilient exceptional-point voltmeters enabled by oscillation quenching phenomena. Nat. Commun. 14, 5515 (2023).<\/p>\n Article<\/a>\u00a0 Li, H. et al. Enhanced sensitivity with nonlinearity-induced exceptional points degeneracy lifting. Commun. Phys. 7, 117 (2024).<\/p>\n Article<\/a>\u00a0 Chen, D.-Y., Dong, L. & Huang, Q.-A. A nonlinear parity\u2013time-symmetric system for robust phase sensing. Nat. Electron. https:\/\/doi.org\/10.1038\/s41928-025-01542-8<\/a> (2026).<\/p>\n Wei, Z., Huang, J.-Q., Wang, M., Xu, W. & Huang, Q.-A. Exceptional precision of a piezoelectric resonance sensor at a cube-root singularity. Phys. Rev. Appl. 22, 064082 (2024).<\/p>\n Article<\/a>\u00a0 Barry, J. F. et al. Sensitivity optimization for NV-diamond magnetometry. Rev. Mod. Phys. 92, 015004 (2020).<\/p>\n Article<\/a>\u00a0 Du, C. et al. Control and local measurement of the spin chemical potential in a magnetic insulator. Science 357, 195\u2013198 (2017).<\/p>\n Article<\/a>\u00a0 Degen, C. L., Reinhard, F. & Cappellaro, P. Quantum sensing. Rev. Mod. Phys. 89, 035002 (2017).<\/p>\n Article<\/a>\u00a0 Boss, J. M., Cujia, K., Zopes, J. & Degen, C. L. Quantum sensing with arbitrary frequency resolution. Science 356, 837\u2013840 (2017).<\/p>\n Article<\/a>\u00a0 Schmitt, S. et al. Submillihertz magnetic spectroscopy performed with a nanoscale quantum sensor. Science 356, 832\u2013837 (2017).<\/p>\n Article<\/a>\u00a0 Wang, H. et al. A spin-refrigerated cavity quantum electrodynamic sensor. Nat. Commun. 15, 10320 (2024).<\/p>\n Article<\/a>\u00a0 Zhang, G.-Q. et al. Exceptional point and cross-relaxation effect in a hybrid quantum system. PRX Quantum 2, 020307 (2021).<\/p>\n Article<\/a>\u00a0 Kanamaru, T. Van der pol oscillator. Scholarpedia 2, 2202 (2007).<\/p>\n Article<\/a>\u00a0 Yao, B. et al. Coherent microwave emission of gain-driven polaritons. Phys. Rev. Lett. 130, 146702 (2023).<\/p>\n Article<\/a>\u00a0 Angerer, A. et al. Ultralong relaxation times in bistable hybrid quantum systems. Sci. Adv. 3, e1701626 (2017).<\/p>\n Article<\/a>\u00a0 Milburn, T. J. et al. General description of quasiadiabatic dynamical phenomena near exceptional points. Phys. Rev. A 92, 052124 (2015).<\/p>\n Article<\/a>\u00a0 Uzdin, R., Mailybaev, A. & Moiseyev, N. On the observability and asymmetry of adiabatic state flips generated by exceptional points. J. Phys. A: Math. Theor. 44, 435302 (2011).<\/p>\n Article<\/a>\u00a0 Liu, L., Lu, Y., Zhuang, X., Zhang, Q. & Fang, G. Noise analysis in pre-amplifier circuits associated to highly sensitive optically-pumped magnetometers for geomagnetic applications. Appl. Sci. 10, 7172 (2020).<\/p>\n Article<\/a>\u00a0 Schwindt, P. D. et al. Chip-scale atomic magnetometer. Appl. Phys. Lett. 85, 6409\u20136411 (2004).<\/p>\n Article<\/a>\u00a0 Jenkins, A. Self-oscillation. Phys. Rep. 525, 167\u2013222 (2013).<\/p>\n Article<\/a>\u00a0 Barry, J. F. et al. Ferrimagnetic oscillator magnetometer. Phys. Rev. Appl. 19, 044044 (2023).<\/p>\n Article<\/a>\u00a0 Barry, J. F. et al. Sensitive ac and dc magnetometry with nitrogen-vacancy-center ensembles in diamond. Phys. Rev. Appl. 22, 044069 (2024).<\/p>\n Article<\/a>\u00a0 Bai, K., Lin, C. & Xiao, M. Impact of noise on nonlinear-exceptional-point-based sensors. Preprint at https:\/\/arxiv.org\/abs\/2509.04839<\/a> (2025).<\/p>\n Zheng, X. & Chong, Y. Noise constraints for nonlinear exceptional point sensing. Phys. Rev. Lett. 134, 133801 (2025).<\/p>\n Article<\/a>\u00a0 Darcie, T. & Aitchison, J. S. Noise-induced limits on responsivity and snr for nonlinear exceptional point sensing. Preprint at https:\/\/arxiv.org\/abs\/2509.20346<\/a> (2025).<\/p>\n Fahey, D. P. et al. Steady-state microwave mode cooling with a diamond N-V ensemble. Phys. Rev. Appl. 20, 014033 (2023).<\/p>\n Article<\/a>\u00a0 Zhang, Y. et al. Microwave mode cooling and cavity quantum electrodynamics effects at room temperature with optically cooled nitrogen-vacancy center spins. npj Quantum Inf. 8, 125 (2022).<\/p>\n Article<\/a>\u00a0 Wu, H., Mirkhanov, S., Ng, W. & Oxborrow, M. Bench-top cooling of a microwave mode using an optically pumped spin refrigerator. Phys. Rev. Lett. 127, 053604 (2021).<\/p>\n Article<\/a>\u00a0
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n MathSciNet<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n
\n ADS<\/a>\u00a0
\n
\n Google Scholar<\/a>\u00a0\n <\/p>\n","protected":false},"excerpt":{"rendered":"Li, A. et al. Exceptional points and non-Hermitian photonics at the nanoscale. Nat. Nanotechnol. 18, 706\u2013720 (2023). Article\u00a0…\n","protected":false},"author":2,"featured_media":489086,"comment_status":"","ping_status":"","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[24],"tags":[4491,10242,4490,4495,4494,40245,3250,4489,4492,4493,2302,26783,90,88156,4488,56,54,55],"class_list":["post-489085","post","type-post","status-publish","format-standard","has-post-thumbnail","category-physics","tag-atomic","tag-atomic-and-molecular-interactions-with-photons","tag-classical-and-continuum-physics","tag-complex-systems","tag-condensed-matter-physics","tag-electronic-and-spintronic-devices","tag-general","tag-mathematical-and-computational-physics","tag-molecular","tag-optical-and-plasma-physics","tag-physics","tag-quantum-metrology","tag-science","tag-solid-state-nmr","tag-theoretical","tag-uk","tag-united-kingdom","tag-unitedkingdom"],"_links":{"self":[{"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/posts\/489085","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/comments?post=489085"}],"version-history":[{"count":0,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/posts\/489085\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/media\/489086"}],"wp:attachment":[{"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/media?parent=489085"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/categories?post=489085"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.newsbeep.com\/uk\/wp-json\/wp\/v2\/tags?post=489085"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}