Thermoluminescent dosimeter
Thermoluminescent dosimeter (TLD) is a passive radiation detection device that is used for personal dose monitoring or to measure patient dose.
Parts
- plastic holder
- nickel-coated aluminum card with TLD discs
- the discs are made of a thermoluminescent material, commonly calcium sulphate doped with dysprosium (CaSO4:Dy) or lithium fluoride (LiF)
- nearly tissue equivalent, although not at all x-ray energies
- the discs are 0.8 mm thick and have a 1.35 cm diameter
- the discs are made of a thermoluminescent material, commonly calcium sulphate doped with dysprosium (CaSO4:Dy) or lithium fluoride (LiF)
- three filters against each disc
- top: aluminum and copper
- middle: perspex
- lower: open
When the radiation falls on TLD, the electrons are excited and store energy. After a varied period (can be one month, bimonthly, quarterly or even biannual), the TLD badges are sent for reading. The TLD reader consists of a heater. On getting heated, the excited electrons again come back to the ground state and emit light which is then read by a photomultiplier . The light output is proportional to the radiation exposure .
TLD has better accuracy than a film dosimeter and do not require an estimate of photon energy. It also has a higher dynamic range and are re-usable .
If a radiation worker is wearing a lead apron, the TLD badge can be worn under the lead apron (to reflect body dose) or outside the lead apron (to reflect extremity/thyroid dose) . TLDs can measure doses from 0.01 mGy to 10 Gy .
