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相关概念视频

X-ray Imaging01:24

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German physicist Wilhelm Röntgen (1845–1923) was experimenting with electrical current when he discovered that a mysterious and invisible "ray" would pass through his flesh but leave an outline of his bones on a screen coated with a metal compound. In 1895, Röntgen made the first durable record of the internal parts of a living human: an "X-ray" image (as it came to be called) of his wife’s hand. Scientists worldwide quickly began their own experiments with...
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The average temperature of Earth is the subject of much current discussion. Earth is in radiative contact with both the Sun and dark space; it receives almost all its energy from the radiation of the Sun and reflects some of it into outer space. Dark space is very cold, about 3 K, so Earth radiates energy into it. For instance, heat transfer occurs from soil and grasses, the rate of which can be so rapid that frost can occur on clear summer evenings, even in warm latitudes.
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All radioactive nuclides emit high-energy particles or electromagnetic waves. When this radiation encounters living cells, it can cause heating, break chemical bonds, or ionize molecules. The most serious biological damage results when these radioactive emissions fragment or ionize molecules. For example, α and β particles emitted from nuclear decay reactions possess much higher energies than ordinary chemical bond energies. When these particles strike and penetrate matter, they...
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Radiological investigations, including X-rays and computed tomography (CT) scans, are critical for diagnosing and evaluating various medical conditions. These imaging techniques provide valuable insights into the body's internal structures, aiding in the detection of abnormalities, assessment of disease progression, and development of treatment strategies. This article delves into two primary radiological investigations, chest X-rays and CT scans, outlining their purpose, procedures, and...
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The rate of heat transfer by emitted radiation is described by the Stefan-Boltzmann law of radiation:
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Dosimetry for Cell Irradiation using Orthovoltage 40-300 kV X-Ray Facilities
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视觉化X射线剂量计用于多环境应用.

Lan Lu1, Songcheng Peng1, Lei Zhao2

  • 1Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, Yunnan, People's Republic of China.

Nano letters
|September 15, 2023
PubMed
概括
此摘要是机器生成的。

这项研究引入了一种新的视觉X射线剂量测量方法,使用在辐射时改变颜色的纳米晶体. 这允许立即和延迟的辐射检测,提高各种应用中的安全性.

关键词:
检测剂量的X射线检测可调色的颜色可以调色.交叉放松 相互放松多种环境的多元环境.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 纳米技术 纳米技术
  • 放射化学 放射化学是指辐射化学.

背景情况:

  • 在化学,材料科学和医学领域,X射线剂量检测至关重要.
  • 现有的剂量测量材料在立即和延迟辐射检测方面都存在困难.

研究的目的:

  • 为各种应用开发可视X射线剂量测量方法.
  • 为了利用NaLuF4纳米晶体进行色度和机械发光X射线检测.

主要方法:

  • 合成的NaLuF4纳米晶体添加了Ho3+.
  • 通过度调整研究了X射线诱导的颜色变化 (从绿色到红色).
  • 由于诱导的捕捉中心,在辐射后观察到机械发光 (ML) 的产生.

主要成果:

  • NaLuF4:Ho3+纳米晶体在暴露于X射线时呈现出视觉上的颜色变化.
  • Ho3+度调通过交叉放松控制了发射颜色.
  • X射线照射会产生捕获中心,使剂量依赖的ML能够延迟检测.

结论:

  • 开发了一种双模式 (视觉和ML) 的X射线剂量计.
  • 该方法提供了即时和延迟辐射检测能力.
  • 潜在的应用包括缺陷检测,核医学,海关和民防.