基因利用物理学原理助力生物生长 一手编译
The same pulling force that causes “tears” in a glass of wine also shapes embryos. It’s another example of how genes exploit mechanical forces for growth and development. ...
DNA环状结构为远古生命迈向复杂化奠定基础 一手编译
New work shows that physical folding of the genome to control genes located far away may have been an early evolutionary development. The post Loops of DNA Equipped Anci...
折纸艺术破解物理学重大难题 一手编译
The amplituhedron, a shape at the heart of particle physics, appears to be deeply connected to the mathematics of paper folding. The post Origami Patterns Solve a Major ...
单个AI模型如何形成对环境的物理直觉 一手编译
The V-JEPA system uses ordinary videos to understand the physics of the real world. The post How One AI Model Creates a Physical Intuition of Its Environment first appe...
衡量量子特性的温度计 一手编译
“Anomalous” heat flow, which at first appears to violate the second law of thermodynamics, gives physicists a way to detect quantum entanglement without destroying it. T...
大脑如何平衡兴奋与抑制 一手编译
A healthy brain maintains a harmony of neurons that excite or inhibit other neurons, but the lines between different types of cells are blurrier than researchers once thought. ...
新数学方法复兴几何学最古老难题 一手编译
Using a relatively young theory, a team of mathematicians has started to answer questions whose roots lie at the very beginning of mathematics. The post New Math Revives...
要理解人工智能,且看其如何进化。 一手编译
Naomi Saphra thinks that most research into language models focuses too much on the finished product. She’s mining the history of their training for insights into why these systems...
测量绳结的简单方法遭遇挑战 一手编译
Two mathematicians have proved that a straightforward question — how hard is it to untie a knot? — has a complicated answer. The post A Simple Way To Measure Knots Has C...
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