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相关概念视频

Generating Electromagnetic Radiations01:10

Generating Electromagnetic Radiations

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The German physicist Heinrich Hertz (1857–1894) was the first to generate and detect certain types of electromagnetic waves in the laboratory. Starting in 1887, he performed a series of experiments that confirmed the existence of electromagnetic waves and verified that they travel at the speed of light. Hertz used an alternating-current RLC (resistor-inductor-capacitor) circuit that resonated at a known frequency and connected it to a loop of wire. High voltages induced across the gap in...
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Semiconductors01:22

Semiconductors

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There is variation in the electrical conductivity of materials - metals, semiconductors, and insulators that are showcased with the help of the energy band diagrams.
Metals such as copper (Cu), zinc (Zn), or lead (Pb) have low resistivity and feature conduction bands that are either not fully occupied or overlap with the valence band, making a bandgap non-existent. This allows electrons in the highest energy levels of the valence band to easily transition to the conduction band upon gaining...
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NMR Spectrometers: Radiofrequency Pulses and Pulse Sequences01:17

NMR Spectrometers: Radiofrequency Pulses and Pulse Sequences

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A pulse is a short burst of radio waves distributed over a range of frequencies that simultaneously excites all the nuclei in the sample. Upon passing a radio frequency pulse along the x-axis, the nuclei absorb energy corresponding to their Larmor frequencies and achieve resonance. This shifts the net magnetization vector from the z-axis toward the transverse plane. This angle of rotation of the magnetization vector, or the flip angle, is proportional to the duration and intensity of the pulse.
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相关实验视频

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Generation and Coherent Control of Pulsed Quantum Frequency Combs
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用于先进的射频应用的通用可编程光子处理器.

Daniel Pérez-López1,2, Ana Gutierrez3,4, David Sánchez4

  • 1Photonics Research Labs, iTEAM Research Institute, Universitat Politècnica de València, Valencia, Spain. daniel.perez@ipronics.com.

Nature communications
|February 20, 2024
PubMed
概括
此摘要是机器生成的。

研究人员开发了第一个通用可编程光子处理器. 这种光子设备集成了先进的5G/6G无线系统的电子和软件层.

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相关实验视频

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科学领域:

  • 光子学和光学工程 光子学和光学工程
  • 集成电路 集成电路
  • 无线通信系统无线通信系统

背景情况:

  • 微波光子子系统对于5G/6G无线系统至关重要,但缺乏可扩展性.
  • 对于可重新配置的过,频率转换,任意波形生成和光束成形的现有解决方案是有限的.
  • 光学提供超高带宽,高速运行和低功耗的优势.

研究的目的:

  • 报告第一个通用可编程光子处理器.
  • 展示光子可编程核心与电子和软件层的集成.
  • 展示处理器实现基本微波光子功能的能力.

主要方法:

  • 使用光子技术制造处理器.
  • 一个光子核心与电子监控和软件资源管理层的集成.
  • 编程处理器来执行关键的微波光子功能.

主要成果:

  • 开发的处理器成功地实现了微波光子系统所需的所有基本功能.
  • 该系统利用光子学来实现可扩展,高性能的无线应用.
  • 在光子和电子元件之间证明了协同作用.

结论:

  • 一个通用可编程光子处理器已经成功实现.
  • 这项技术可以为下一代无线系统提供可扩展的解决方案.
  • 集成的光子/电子/软件堆代表了光子计算的重大进步.