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相关概念视频

Flame Photometry: Overview01:02

Flame Photometry: Overview

612
Flame photometry, also known as flame emission spectrometry, is a technique used for the qualitative and quantitative analysis of elements present in a sample using a flame as the source of excitation energy. The concept of flame photometry was realized in the early 1860s by Kirchhoff and Bunsen, who discovered that specific elements emit characteristic radiation when excited in flames. The first instrument developed for this purpose was used to measure sodium (Na) in plant ash using a Bunsen...
612
Multi-input and Multi-variable systems01:22

Multi-input and Multi-variable systems

107
Cruise control systems in cars are designed as multi-input systems to maintain a driver's desired speed while compensating for external disturbances such as changes in terrain. The block diagram for a cruise control system typically includes two main inputs: the desired speed set by the driver and any external disturbances, such as the incline of the road. By adjusting the engine throttle, the system maintains the vehicle's speed as close to the desired value as possible.
In the absence...
107
Thermometers and Temperature Scales01:22

Thermometers and Temperature Scales

5.5K
Any physical property that depends consistently and reproducibly on temperature can be used as the basis of a thermometer. For example, volume increases with temperature for most substances. This property is the basis for the common alcohol thermometer and the original mercury thermometers. Other properties used to measure temperature include electrical resistance, color, and the emission of infrared radiation.
As many physical properties depend on temperature, the variety of thermometers is...
5.5K
Flame Photometry: Lab01:16

Flame Photometry: Lab

251
In a flame photometer, when a solution like potassium chloride is aspirated into the flame, the solvent evaporates, leaving behind dehydrated salt. This salt dissociates into free gaseous atoms in their ground state. Some of these atoms absorb energy from the flame, leading to their excitation. The excited atoms return to the ground state, emitting photons at characteristic wavelengths. Because only electronic transitions are involved, the resulting emission lines are very narrow. The intensity...
251
Temperature Measurement Sites01:14

Temperature Measurement Sites

1.7K
A thermometer measures body temperature. The common sites for measuring body temperature are the oral cavity, axillary region, temporal artery, and skin surface, such as the forehead, abdomen, and axilla. True core body temperature is assessed in the rectum, tympanic membrane, pulmonary artery, esophagus, and urinary bladder.
Oral: When assessing oral temperature, the thermometer tip should be placed under the tongue in the posterior sublingual pocket. It offers accurate readings and can be...
1.7K
Absorption of Radiation01:05

Absorption of Radiation

739
The rate of heat transfer by emitted radiation is described by the Stefan-Boltzmann law of radiation:
739

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相关实验视频

Updated: Jul 9, 2025

Applying X-ray Imaging Crystal Spectroscopy for Use as a High Temperature Plasma Diagnostic
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Applying X-ray Imaging Crystal Spectroscopy for Use as a High Temperature Plasma Diagnostic

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广义的逆矩阵图形深度学习算法用于多光谱高 pyrometer 温度逆转.

Nannan Zhang, Jian Xing, Shuanglong Cui

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    此摘要是机器生成的。

    这项研究介绍了一种用于自适应多谱放射测量温度逆转的新型图形算法. 它通过将温度测量视为图像识别任务来克服未知的发射率挑战,从而实现准确的同时温度和发射率逆转.

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    Author Spotlight: Unveiling the Potential of VSFG Microscopy in Studying Mesoscopically Heterogeneous Self-Assembled Structures
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    科学领域:

    • 射线测量和温度测量方法
    • 图像识别和深度学习
    • 材料科学和发射力分析

    背景情况:

    • 多光谱放射测量温度测量受到未知的发射率的阻碍,限制了现有的反转算法的适用性.
    • 目前缺少一种通用算法,用于在各种场景和目标中准确的温度和辐射率逆转.

    研究的目的:

    • 开发一个图形的多光谱放射测量温度自适应逆转算法.
    • 为了解决温度测量技术中未知发射率的局限性.
    • 为任何场景或目标实现温度和辐射率的同时逆转.

    主要方法:

    • 使用光谱通道差异将一维辐射数据转换为二维辐射图.
    • 使用通用反向来提取光谱发射率分布特征.
    • 与辐射图融合了发射率特征,并采用了改进的深度学习网络来适应温度逆转.

    主要成果:

    • 拟议的图形算法成功地将放射测量温度反转转化为图像识别问题.
    • 实验验证证明了算法的同时温度和辐射率逆转的能力.
    • 这种方法证明对任何场景或目标有效,只要有足够的数据集可用.

    结论:

    • 开发的图形多谱放射测量温度自适应逆转算法为未知的发射率挑战提供了强大的解决方案.
    • 这种基于图像识别的方法显著提高了放射测量温度测量的适应性和准确性.
    • 该算法的同时执行温度和发射率逆转的能力在热成像应用中开辟了新的可能性.