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dosimetry

A
Anwar Hussain
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Radio-Photoluminescence Glass Dosimeter
A radio-photoluminescence dosimeter glass of low dependence on energy, consisting essentially of an inorganic silver compound and at least one metal fluoride selected from the group consisting of an alkali metal, alkaline earth metal, lanthanum, and aluminum. A radio-photoluminescence dosimeter glass of low dependence on energy, consisting essentially of an inorganic silver compound and at least one inorganic complex metal fluoride.
The basic principle of RPLGD is that the color centers are formed when the luminescentmaterial inside the glass compound exposed to radiation and fluorescence are emitted from the color centers after irradiated with ultra-violet light. The excited electrons generated from the color centers return to the original color centers after emitting the fluorescence. This process is called radio-photoluminescence phenomena. Because the electrons in the color centers return to the electron traps after emitting the fluorescence
. Characteristics of Radiothermuluminiscence for clinical applications
Repeatable readout The luminescence signal does not disappear after readout; therefore, repeated readout for a single exposure is possible.
Small difference in individual sensitivity The readout variation between different RLGDs with the same exposure is small. RPLGD is manufactured with melted glass; therefore, its individual sensitivity is small as compared to that of either TLD or OSLD.
Better reproducibility By using pulse ultra-violet laser as excited source, the accuracy of repeated readout can be maintained. Therefore, RPLGD has a very good reproducibility.
Wide measurable dose range The dose linearity range for RPLGD is 0 – 500 Gy. This range covers the dose range used in the medical field. RPLGD can therefore be applied for dose verification in radiotherapy as well as in diagnostic radiology. RPLGD is also desirable for high dose gradient area, such as IMRT (Intensity Modulated Radiotherapy) procedures or HDR (High Dose Rate Remote Afterloader) procedures because of its small effective readout area.
Feasibility of personal dose monitor tools The characteristics, physical and chemical, of RPLGD are equal to or better than that of TLD and OSLD because of its luminescence material and readout technique. Hence, RPLGD can be used as dose monitor for radiation field worker.

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dosimetry

  • 3. A radio-photoluminescence dosimeter glass of low dependence on energy, consisting essentially of an inorganic silver compound and at least one metal fluoride selected from the group consisting of an alkali metal, alkaline earth metal, lanthanum, and aluminum. A radio-photoluminescence dosimeter glass of low dependence on energy, consisting essentially of an inorganic silver compound and at least one inorganic complex metal fluoride.
  • 4. The basic principle of RPLGD is that the color centers are formed when the luminescentmaterial inside the glass compound exposed to radiation and fluorescence are emitted from the color centers after irradiated with ultra-violet light. The excited electrons generated from the color centers return to the original color centers after emitting the fluorescence. This process is called radio-photoluminescence phenomena. Because the electrons in the color centers return to the electron traps after emitting the fluorescence
  • 6. Repeatable readout The luminescence signal does not disappear after readout; therefore, repeated readout for a single exposure is possible.
  • 7. Small difference in individual sensitivity The readout variation between different RLGDs with the same exposure is small. RPLGD is manufactured with melted glass; therefore, its individual sensitivity is small as compared to that of either TLD or OSLD.
  • 8. Better reproducibility By using pulse ultra-violet laser as excited source, the accuracy of repeated readout can be maintained. Therefore, RPLGD has a very good reproducibility.
  • 9. Wide measurable dose range The dose linearity range for RPLGD is 0 – 500 Gy. This range covers the dose range used in the medical field. RPLGD can therefore be applied for dose verification in radiotherapy as well as in diagnostic radiology. RPLGD is also desirable for high dose gradient area, such as IMRT (Intensity Modulated Radiotherapy) procedures or HDR (High Dose Rate Remote Afterloader) procedures because of its small effective readout area.
  • 10. Feasibility of personal dose monitor tools The characteristics, physical and chemical, of RPLGD are equal to or better than that of TLD and OSLD because of its luminescence material and readout technique. Hence, RPLGD can be used as dose monitor for radiation field worker.