X-ray tube: Difference between revisions
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== X-ray_tube == | |||
<gallery> | |||
File:Dental_x-ray_tube.jpg|Dental x-ray tube | |||
File:TubeSpectrum-en.svg|Tube Spectrum | |||
File:Cosser_Crookes_xray_tube.jpg|Cosser Crookes x-ray tube | |||
File:WaterCooledXrayTube.svg|Water Cooled X-ray Tube | |||
File:Xraytubeinhousing_commons.png|X-ray tube in housing | |||
File:Rotating_anode_x-ray_tube_(labeled).jpg|Rotating anode x-ray tube (labeled) | |||
File:hvtubes.jpg|High voltage tubes | |||
</gallery> | |||
Latest revision as of 23:57, 24 February 2025
X-ray tube is an essential component of X-ray machines that generates X-rays. These tubes are used in a variety of settings, including medical imaging, industrial inspection, and scientific research.
Structure[edit]
An X-ray tube is composed of several key components:
- Cathode: This is the negative electrode that emits electrons. It typically includes a filament, which is heated to produce electrons, and a focusing cup, which directs the electrons towards the anode.
- Anode: This is the positive electrode that receives the electrons emitted by the cathode. When the high-speed electrons hit the anode, X-rays are produced. The anode is typically made of a heavy metal, such as tungsten, to withstand the high temperatures generated during X-ray production.
- Envelope: This is the glass or metal housing that contains the cathode and anode. It is typically vacuum-sealed to allow the electrons to travel from the cathode to the anode without colliding with air molecules.
- Cooling system: This system helps to dissipate the heat generated during X-ray production. It may include a rotating anode, oil bath, or other cooling methods.
Operation[edit]
The operation of an X-ray tube involves several steps:
- The filament in the cathode is heated, causing it to emit electrons.
- A high voltage is applied between the cathode and anode, causing the electrons to accelerate towards the anode.
- When the high-speed electrons hit the anode, they transfer their energy to the anode material. This energy transfer results in the production of X-rays.
Applications[edit]
X-ray tubes are used in a variety of applications, including:
- Medical imaging: X-ray tubes are used in various types of medical imaging equipment, such as computed tomography (CT) scanners, mammography machines, and fluoroscopy equipment.
- Industrial inspection: In the industrial sector, X-ray tubes are used to inspect materials and components for defects.
- Scientific research: X-ray tubes are also used in various types of scientific research, such as crystallography and material science.
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