人工光合作用可以在没有阳光的情况下生产食物 诸平 Fig. 1 Plants are growing in complete darkness in an acetate medium that replaces biological photosynthesis. Credit: Marcus Harland-Dunaway/UCR Fig. 2 A combined electrochemical–biological system for the production of food from C ...
新型聚合物可以为农民带来更高的作物产量 诸平 Fig. 1 Credit: Unsplash/CC0 Public Domain Fig. 2 The polymers are designed to act as a scaffold, 'seeding' the formation of a microorganism-polymer complex, which is crucial in the early stages of a plant’s life when ...
理论计算预测现已证实的四中子,一种奇异的物质状态 诸平 Fig. 1 Andrey Shirokov, left, of Moscow State University in Russia, who has been a visiting scientist at Iowa State, and James Vary of Iowa State are part of an international team of nuclear physicists who theorized, predicted and ...
电动汽车可以通过点对点系统在路上充电? 诸平 Charging stations for EVs still can be few and far in between, and recharging a BEV’s lithium-ion battery might take hours. Now, a researcher at the University of Kansas has co-written a study proposing a peer-to-peer system for BEVs to share ...
实验结果证实了异常,可以指向新的基本粒子 诸平 Fig. 1 Located deep underground at the Baksan Neutrino Observatory in the Caucasus mountains in Russia, the completed two-zone gallium target, at left, contains an inner and outer tank of gallium, which is irradiated by an electron neutr ...
来自不同量子点的孪生光子 诸平 Although the quantum dots of the Basel researchers are different, they emit exactly identical light particles. Credit: University of Basel, Department of Physics 据瑞士巴塞尔大学( University of Basel , Switzerland ) 2022 年 6 月 13 日提供的消息, ...
研究人员观察连续时间晶体 诸平 The image shows cold atoms (in yellow) in an optical resonator on their way to form a time crystal. Credit: University of Hamburg 关于时间晶体( time crystal )之前已经有过几篇博文: 时间晶体 : 物质存在的新形式 ; 使用新的量子计算架构来创 ...
物理学家首次制造出量子回旋镖 诸平 In the quantum boomerang effect, particles return to their starting positions, on average, after a nudge. A new experiment (shown) demonstrates a version of the effect using lithium atoms. The Weld Lab's quantum boomerang showed a lithium atom ...
能用煤制造石墨吗?看俄亥俄大学的最新研究结果 诸平 Amorphous graphite (yellow) obtained after thermal treatment at high temperature (3000K) from a random initial configuration (gray). Credit: Ohio University 据美国俄亥俄大学( Ohio University ) 2022 年 6 月 10 日提供的消息,该 ...