Harmonic: Difference between revisions
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== Harmonic == | |||
<gallery> | |||
File:Moodswingerscale.svg|Moodswinger scale | |||
File:Cello_natural_harmonics.png|Cello natural harmonics | |||
File:Pipe001.gif|Pipe 001 | |||
File:Molecule1.gif|Molecule 1 | |||
File:Pipe002.gif|Pipe 002 | |||
File:Molecule2.gif|Molecule 2 | |||
File:Pipe003.gif|Pipe 003 | |||
File:Molecule3.gif|Molecule 3 | |||
File:Pipe004.gif|Pipe 004 | |||
File:Molecule4.gif|Molecule 4 | |||
File:Flageolette.svg|Flageolette | |||
</gallery> | |||
Latest revision as of 21:35, 23 February 2025
Harmonic is a term used in various fields such as physics, engineering, music, and medicine. In the context of medicine, harmonic refers to a specific type of imaging technique used in ultrasound.
Overview[edit]
Harmonic imaging is a technique used in ultrasound imaging to improve the image quality. It works by transmitting ultrasound waves at one frequency and then receiving the reflected waves at multiple of that frequency. This technique helps in reducing the noise and improving the contrast of the image.
Principle[edit]
The principle of harmonic imaging is based on the non-linear behavior of ultrasound waves as they propagate through tissue. When an ultrasound wave of a certain frequency travels through tissue, it generates waves of multiple frequencies. These are called harmonics. The second harmonic, which is twice the frequency of the original wave, is most commonly used in harmonic imaging.
Applications[edit]
Harmonic imaging is widely used in various fields of medicine. It is particularly useful in cardiology for the evaluation of heart structures and function. It is also used in radiology for the imaging of various organs such as the liver, kidneys, and gallbladder. In obstetrics and gynecology, harmonic imaging is used for the imaging of the fetus and the female reproductive organs.
Advantages[edit]
The main advantage of harmonic imaging is that it improves the image quality by reducing noise and enhancing contrast. This allows for better visualization of structures and more accurate diagnosis. It also reduces the artifacts that are commonly seen in conventional ultrasound images.
Limitations[edit]
Despite its advantages, harmonic imaging also has some limitations. It requires more advanced and expensive ultrasound equipment. It also requires more time to acquire images compared to conventional ultrasound.
