拥挤细胞内的生物物理世界 一手编译
Innovations in imaging and genetic engineering are coming together to probe the biophysics of cytoplasm inside living animals. The post The Biophysical World Inside a Ja...
量子时代的新复杂性理论 一手编译
Henry Yuen is developing a new mathematical language to describe problems whose inputs and outputs aren’t ordinary numbers. The post A New Complexity Theory for the Quan...
量子力学的奥秘是否正开始消散? 一手编译
Columnist Philip Ball thinks the phenomenon of decoherence might finally bridge the quantum-classical divide. The post Are the Mysteries of Quantum Mechanics Beginning T...
物理学家实现电子如水流般流动 一手编译
We describe electricity as a flow, but that’s not what happens in a typical wire. Physicists have begun to induce electrons to act like fluids, an effort that could illuminate new ...
人工智能凭借海量细胞数据,绘制出大脑新功能区图谱。 一手编译
Machine learning is helping neuroscientists organize vast quantities of cells’ genetic data in the latest neurobiological cartography effort. The post Fed on Reams of Ce...
长期追寻的证明驯服了数学中一些最难以驾驭的方程。 一手编译
Mathematicians finally understand the behavior of an important class of differential equations that describe everything from water pressure to oxygen levels in human tissues. ...
膨胀显微镜技术彻底改变了我们观察细胞世界的方式。 一手编译
How physically magnifying objects using a key ingredient in diapers has opened an unprecedented view of the microbial world. The post Expansion Microscopy Has Transforme...
现代与古代科技如何揭示动态宇宙 一手编译
Today’s observatories document every pulse and flash in the sky each night. To understand how the cosmos has changed over longer periods, scientists rely on a more tactile technolo...
曾被认为支撑神经元,星形胶质细胞实则掌控全局。 一手编译
New experiments reveal how astrocytes tune neuronal activity to modulate our mental and emotional states. The results suggest that neuron-only brain models, such as connectomes, le...
网络掌握着解决数十年波动难题的关键。 一手编译
Mathematicians are still trying to understand fundamental properties of the Fourier transform, one of their most ubiquitous and powerful tools. A new result marks an exciting advan...