Global Intelligence Database
A new review traces the 25-year evolution of automated animal tracking, highlighting the shift toward deep learning and 3D pose estimation. By mapping these algorithmic milestones, researchers outline how artificial intelligence will objectively measure behaviour over the next decade.
By Silva, Iguernaissi, Merad, Dubuisson
Researchers have perfected the synthesis of Co3Sn2S2, a magnetic Weyl semimetal, creating a pristine platform for atomic engineering. By manipulating surface defects and introducing oxygen dopants, the team demonstrated the ability to control exotic quantum states for future electronic applications.
By Huang, Xing, Zheng, Lv, Chen, Chen, Yang, Ji, Gao
Scientists have discovered that applying physical pressure to twisted bilayer graphene can recreate the exotic electronic behaviours typically found only at a precise and difficult-to-achieve 'magic angle'. This technique provides a powerful and experimentally robust way to engineer these sought-after quantum phases, making them more accessible for study.
By Mondal, Sinha, Chittari
Researchers have developed a new sensing protocol that uses pairs of entangled nitrogen-vacancy centres in diamond to detect individual atomic spins. By amplifying signals and suppressing environmental noise, this method significantly improves sensitivity and resolution for studying complex quantum materials.
By Zhou, Wang, Ye, Sun, Guo, Han, Chai, Ji, Xia, Shi, Wang, Du
A new survey maps the rapid advances in cavity magnonics, where light and magnetism merge to process information. This hybrid technology promises to revolutionise both classical and quantum computing by offering highly efficient ways to store and manipulate data.
By Macêdo, Smith, Joseph, McKenzie, Stamps