x-ray tube Flashcards
(21 cards)
what are the features of the cathode ?
Filament
Focussing cup
Supporting wires
what is the filament made out of ?
Tungsten
whys if filament made out of Tungsten (hint- 4 points)
-Good thermionic emitter
-Low vapour pressure
Low evaporation rate
-Highly ductile
Easily made into wire
-Current
Alternative methods of producing narrow beam of electrons exist
Changing the focussing cup
Changing the anode angle
describe the features of the focusing cup
-negatively charged, this helps helps to accelerate the electrons towards the anode
- it is a shallow depression on the surface of the cathode, concentrates the electron beam towards the focal spot of the anode
Larger
negative
potential=
more narrow bean
anode angle ?
12 and 17 degrees.
state 3 things as anode must be able to do
(hint-contradictions)
- Mange high atomic number for efficient X-ray production but must be light
-High amount of heat generated should be able to conduct this away as little as possible should be conducted along the anode stem towards the bearings and rotor.
-Bearings are in a vacuum and so cannot be lubricated.
what type of motor used for anode
Induction motor used
what is the anode made out of
tungston
the result of decreasing the anode angle
reducing the anode angle, increases the heel thus increasing anode heel effect as there is now less intensity on the anode side
do x-rays leave with a hugher intesnity on anode side or cathode side
cathode side due to the beam only travelling a short distance through the anode when it is the the cathode side, this is known as the heel effect
explain heel effect
some x-rays once they hit the anode have to go through the anode, some more than others if the beams of e- are closer to the anode side they have to travel a further distance as they are going through more of the heel of the anode. thus x-ray beams on the anode side have a lower intensity.
what happens once e- hit the target on the anode ?
-electron passes near the nucleus it is slowed and its path is deflected.
-Energy lost is emitted as a bremsstrahlung X-ray photon
describe in detail what leads to the x-ray photon being emitted in terms of the e- and nucleus and magnetic field
The sudden change in motion of the electron, once it gets to close to the nucleus constitutes a violent acceleration, which disturbs the electromagnetic field and a photon of x-radiation is emitted.
The principle of conservation of energy states that in producing an x-ray photon the electron has lost some of its kinetic energy and so is travelling more slowly than before the interaction. - is this a consequence or cause of the emission of an x-ray photon?
Consequence
bremsstrahlung (braking radiation)
slowing down of the electron after x-ray photon has been releases
describe Characteristic radiation
- high energy electron interacts with one of the inner shell electrons.
-energy is transferred to this electron for it to be ejected from the atom ie the atom has been ionised
-outer shell electrons move into the inner shells but to do this they have to release some of their energy as the lower shells represent a lower energy state.
- The energy is released by the emission of a photon of electromagnetic radiation.
what does the high voltage between the anode and the cathode cause
Accelerates electrons towards positive anode
define volatge
Voltage is maximum kinetic energy of electron
