4.1. Basic principles
4.1.9. Ultrasound

@@Ultrasound

Doppler effect

A change in frequency observed when the sound source and observer are in relative motion away from or toward each other

Doppler shift

The magnitude of the frequency change in hertz when sound and observer are in relative motion away from or toward each other.
* Quantified

 

 

Physical principles

Frequency

Reflection

NB:

 

Different modes

A-mode ("Amplitude" scan)

B-mode ("Brightness" modulation)

M-mode (time-positioning)

2-D

Pulse wave Doppler

?? Double check. I think wavelength changes as well as frequency

Principle:
* Alteration in the frequency of reflected sound due to the relative velocity of the source of reflection

Velocity of sound = frequency x wavelength

--> c = f0 x lambda

After doppler shift

--> velocity of sound + 2xspeed of movement = frequency of reflection x wavelength

--> c+2v = fr x lambda

Derived from these two equation

--> V = (fr-f0)c/2cos(angle)x f0

Thus,

Motion velocity of the object equals to
Increase in frequency (i.e. doppler shift), times sound velocity,
Divided by 2 x cos (angle) x original frequency

Duplex

Combination of Doppler detection with real-time pulse-echo imaging.

 

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Created20050530
Reviewed20050530


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