| Ultrastrong coupling between light and matter |
130 |
| Magnetic topological insulators |
101 |
| Concept and realization of Kitaev quantum spin liquids |
80 |
| Atomic force microscopy-based mechanobiology |
77 |
| van der Waals heterostructures combining graphene and hexagonal boron nitride |
67 |
| Topological phases in acoustic and mechanical systems |
66 |
| 3D metamaterials |
62 |
| Concepts in the design and engineering of single-molecule electronic devices |
53 |
| Frontiers in multidimensional self-trapping of nonlinear fields and matter |
51 |
| Topological quantum matter in synthetic dimensions |
44 |
| Black phosphorus and its isoelectronic materials |
38 |
| Rogue waves and analogies in optics and oceanography |
38 |
| Probing and controlling magnetic states in 2D layered magnetic materials |
33 |
| Tensor networks for complex quantum systems |
33 |
| The statistical physics of real-world networks |
31 |
| Entanglement certification from theory to experiment |
28 |
| Taking atom interferometric quantum sensors from the laboratory to real-world applications |
28 |
| Single-molecule quantum-transport phenomena in break junctions |
27 |
| Revealing key structural features hidden in liquids and glasses |
24 |
| Angle-resolved photoemission spectroscopy and its application to topological materials |
21 |
| The physics of brain network structure, function and control |
18 |
| Imaging with quantum states of light |
18 |
| Multi-messenger astrophysics |
14 |
| Stochastic weather and climate models |
14 |
| The statistical physics of cities |
13 |
| Geometric phase from Aharonov-Bohm to Pancharatnam-Berry and beyond |
13 |
| Attosecond imaging of molecules using high harmonic spectroscopy |
13 |
| From mechanical resilience to active material properties in biopolymer networks |
12 |
| Enabling real-time multi-messenger astrophysics discoveries with deep learning |
11 |
| Complex lasers with controllable coherence |
10 |
| Quantifying transmission electron microscopy irradiation effects using two-dimensional materials |
10 |
| The BESIII physics programme |
9 |
| Taking census of physics |
8 |
| Buffering by buckling as a route for elastic deformation |
8 |
| Viewing Earth's surface as a soft-matter landscape |
7 |
| Creating designer quantum states of matter atom-by-atom |
7 |
| Soft condensed matter physics of foods and macronutrients |
6 |
| Dynamics of quantum information |
6 |
| Determining random lasing action |
6 |
| Imaging the nucleus with high-energy photons |
5 |
| Atoms and molecules in the search for time-reversal symmetry violation |
4 |
| Galaxy formation and evolution science in the era of the Large Synoptic Survey Telescope |
3 |
| Nucleation, mapping and control of cavitation for drug delivery |
3 |
| Applications of silicon strip and pixel-based particle tracking detectors |
3 |
