When a gas is highly energized, its electrons get torn from the parent atoms, resulting in a plasma-the oft-forgotten fourth state of matter (along ...

Division on whether an OU student should have received a zero on her essay, but most agreed that her free speech rights had ...

While synchrotron radiation is often thought of as "stable," the electromagnetic field exhibits pronounced randomly ...

Quantum sensing has long promised exquisite sensitivity, but in the real world, environmental noise usually buries the very ...

A polarization-switchable array could be the building block for future energy-efficient photonic computers.

The light interacts with the cavity and makes an arbitrary number of bounces before leaking out. This emergent light is traditionally treated as heat in quantum simulations. However, it can still be ...

The U. of Tulsa was a commuter campus that tried — and tried again — to become a regional powerhouse. Now it’s drowning in ...

OkyayTech's hollow cathode plasma source enhances ALD with high electron density, reducing contamination and improving film ...

研究团队提出一种基于镱掺杂技术的波长调控的双模式钙钛矿光电探测器，将传统传感功能与新型神经响应集成于单一平台。通过精准调控掺杂浓度，优化了材料的结晶度、载流子传输效率及电荷动态特性。该器件在近红外光波段呈现类似神经形态系统的自适应响应特性，同时在可见光波段保持了传统光电探测能力。该成果展现了镱掺杂技术在构建智能光电子器件方面的潜力，为未来神经形态计算与视觉传感应用提供了重要技术支撑。

An elegant new equation identifies the surprisingly orderly, mathematical way in which things break, shatter, and fall apart.

China’s Shanghai Institute of Applied Physics (SINAP) in November reported it had achieved thorium-to-uranium fuel conversion ...

Quantum computers will be able to assume highly complex tasks in the future. With superconducting quantum processors, however, it has thus far been ...