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X-ray Production

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Radiation may be defined as energy in transit from one. location to another. ... E(keV) = 12.4/ (angstrom) 1 angstrom =10-10 m. 1 eV = 1.6 X 10-19 joules ... – PowerPoint PPT presentation

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Title: X-ray Production


1
X-ray Production
  • M A Oghabian
  • Medical Physics (PhD)
  • Tehran University of medical Sciences
  • www.Oghabian.net

2
Crookes Tube
Roentgens discovery based on Crookes tube r
3
Electromagnetic Radiation
Radiation may be defined as energy in transit
from one location to another.
  • The Nature of X-Rays
  • X-rays, light, radio waves, ultraviolet rays,
    are electromagnetic radiation
  • electromagnetic Radiation can be produced by
    accelerating an electric charge
  • . It has an associated electric and magnetic
    field.

4
EM Radiation
5
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6
Particle-wave duality of x-ray
  • X-rays, as well as all other electromagnetic
    radiation, have the wave-particle duality
  • This wave can be described by its frequency n
    (or wavelength l) and traveling velocity c.
  • c3 x 108 m/sec (velocity in a vacuum)

l
c l n n c / l
7
???? ?????? ?? ???? ???? ???? ?? ????? KeV 70
???? ??? ?
Ek h n0 n c / l Ek hc / l h 4.15
10-15 ev-Sec
8
Electromagnetic Radiation Spectrum
9
X rays generation X rays are generated by
interactions between the energetic electrons and
atoms of the target.
The interactions result x rays in two
ways (1)Bremsstrahlung (brake radiation,
general radiation) (2) Characteristic radiation
10
Bremsstrahlung (brake radiation, general
radiation) when a charged particle undergoes
acceleration or deceleration, it emits photons.
11
Bremmstrahlung
Most electrons that strike the target give up
their energy by interactions with a number of
atoms Conclusion The bremsstrahlung produces
inherently continuous spectrum of x rays.
99 of the radiation are absorbed by target and
the walls of the x-ray tube to produce only heat.
12
Bremmstrahlung
For monoenergetic electrons passing through a
thick target, the energy flounce spectrum is
  • kinetic energy Ek h n0
  • c / l
  • lmin12.4/kVp A0

13
  • X-ray tube voltage is expressed as the peak
  • kilovoltage (kVp). (eg 100 kVp)
  • ????????? ????? ???? x ????? ????? ?? ?????? ??
    ??????? ???? ????? ??? ????? ??? ?? ??????
    ????????? ?? ????? ??? ????? ????? ?? ???
  • ? ???????? ?? ?????? ??????? (High Voltage) ????
    KVp ????.
  • ?????? ???? ??? ??? X-ray ?? KVp100 ????? ???
    ??

14
Characteristic radiation
  • The minimum energy required to knocking out an
    electron in a specific orbit depends on binding
    energy.
  • Removal of an electron cause the target atom to
    a
  • higher energy state with 2 productions
  • 1) Positive charged ion
  • 2) Negative charged ion
  • Two ways for an ionized atom returning to its
    normal
  • (lower energy) state
  • (1) Characteristic x-ray radiation
  • (2) Emission of Auger electrons.

15
Characteristic x-ray
16
Characteristic radiation
K-shell filling is the most important for
diagnostic x rays. For tungsten This energy is
70 keV for K shell. L-characteristic x-ray is
11 keV. Ek-L 59 (keV). - It is 10
of total spectrum -The low-energy photons are
absorbed by the target and the walls of the x-ray
tube to produce heat.
17
K-Characteristic Radiation
Ka
Kb
Kg
K
b1
a2
a1
g1
L
M
N
Photon Energy (keV)
18
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19
?????????? ?? ?? ??? ???? ???? ????? ?????
??????? ??
  • 1- ??? ???? ???
  • 2- ????? ????? ??? ( KVp )
  • 3- ????? ???? ???? ????
  • 4- ????? ????? ( ???? ) ?????
  • 5- ??? ??? K
  • 6- ????? ??? ???? ?????

20
X- rays Tube
  • Bombardment must take place in a vacuum to
    prevent
  • Ionization of air.

21
X-ray Tube
22
??????? ???? ???? ???? x ?? ??? ????
23
Disk-shaped, rotating anode allows heat to be
spread over a much larger surface without
compromising apparent size of focal spot.
24
What Is Happening In Cathode
Thermo ionic emission when a metal is heated
its atoms absorb thermal energy and some
electrons escape the metal surface.
(1) Focusing cup.
25
(2) Tungsten filament
Filament is made of tungsten wire with high
melting point (33700 C), low vaporization, and
lasting strength.
(3) Electric circuit to provide the heating
currents. This is filament circuit which is
different from the x-ray tube current. (4)
Electrons are accelerated towards the anode.
The x-ray tube current, measured in mA , refers
to the number of electrons flowing per second
from the filament to anode.
26
What Is Happening In Anode
High-speed electrons collide with the tungsten
atoms.
27
Angulation of anode
Tungsten Target
Electrons
(--)
()
cathode
Cu
Titling angle q
Sin20 0.342, Sin16.5 0.284
Apparent focal spot size
X-Rays
  • allows to deposit electron energy over larger
    surface of
  • anode while maintaining smaller apparent focal
    spot
  • size. (Typical anode angle 6- to 20-degree).

28
Heel effect x-ray beam produced in target is
attenuated in anode body, therefore its
intensity is not constant over the entire field
of coverage. (X-ray intensity is diminished
toward the direction of anode).
29
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30
X-ray Generator
  • Electric power is needed in a x-ray tube for
    three objectives
  • (1) To boil off the electrons from the filament
  • (2) To accelerate electrons
  • (3) To control the exposure time.
  • The x-ray generator has a circuit for each of
    these objectives
  • (1) Filament circuit
  • (2) High-voltage circuit
  • (3) Time circuit
  • Two compartments
  • Control panel Exposure switching, Exposure
    timer.
  • Transformer assembly Voltage transformers,
    Current rectifiers.

31
X-ray generator
  • Voltage transformers provide low-voltage ( 10 V
    ) for the filament current
  • and high-voltage ( 150, 000 V) for the
    cathode-anode tube.

Vp/VsNp/Ns

primary coil
secondary coil
V
Principle of transformer Changing magnetic field
induces electric currents
32
Full-wave and half-wave rectification
half-wave rectification
full-wave rectification
33
X-ray Tube Chart
Heat Unit (HU) kV.mA.S
For example a 70 kV _at_100 mA
Heat Units Single phase
700 Constant potential 980
A X-ray tube chart is used to determine the safe
limit to operate the x-ray tube
34
Xray Tube Rating ChartFor example, a 35-kW
X-ray tube can only accept 500 mA for0.1 sec
exposure at 70 kVp.
35
Useful Formulas

keV, kVP , S (sec), and mA are the units
particularly suited to x-ray physics.
E(keV) 12.4/??(angstrom) 1 angstrom 10-10 m 1
eV 1.6 X 10-19 joules 1 e 1.6 X 10-19
coulombs 1 joule 1 coulomb X 1V 1 cal 4.184
joule 1 ampere 1 coulomb/sec
36
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