Among the benefits of using OSL (Optically Stimulated Luminescence) dosimeters are known for their exceptional durability. These dosimeters are designed to withstand various challenging conditions with minimal damage. They are highly resistant to temperature extremes, whether exposure to high or low temperatures or sudden fluctuations in temperature. Unlike TLD (Thermoluminescent Dosimeter) crystals, OSL badges are significantly less prone to damage from moisture and humidity. One of the impressive features of OSL badges is their ruggedness. Dropping an OSL dosimeter usually does not lead to any damage as long as the plastic case remains intact. These dosimeters can also endure high humidity, extreme heat, cold, and sudden temperature changes. OSL badges can even be submerged in water for long periods of time, which means they can handle being accidentally put through a washer and dryer without being affected. On the other hand, TLD dosimeters are comparatively more delicate. They are more susceptible to damage caused by high or low temperatures and sudden changes in temperature, moisture, and humidity.
If a TLD dosimeter becomes damaged, it generally needs to be replaced. Over time, the costs of these replacements can accumulate, which can be a significant consideration. One important aspect to note is the risk associated with wearing a damaged dosimeter. If an employee continues to wear a damaged dosimeter, there is a possibility that their doses will not be accurately recorded. This could lead to inaccurate monitoring and evaluation of their radiation exposure. Therefore, when it comes to durability, OSL dosimeters are generally considered more resilient and durable than TLD dosimeters. Their ability to withstand harsh conditions and potential accidents makes them a reliable choice for radiation monitoring.
How is an OSL Dosimeter Read?
The read method for OSL (Optically Stimulated Luminescence) dosimeters involves using light in a non-destructive manner. In contrast, TLD (Thermoluminescent Dosimetry) dosimeters are read using heat in a destructive process. It should be noted that reading a TLD dosimeter releases the trapped energy, resetting the crystal back to zero and making it impossible to re-read.
Lower Limits of Radiation Detection (LLD)
The lower limit of detection (LLD) is a crucial factor when selecting a dosimeter, as it determines the minimum level of radiation exposure that the dosimeter can accurately measure. This is particularly important in ensuring that any potentially harmful doses of radiation are not missed. Optically Stimulated Luminescence (OSL) dosimeters and Thermoluminescent Dosimeters (TLD) have specific considerations regarding their LLD. OSL dosimeters typically have a lower LLD compared to TLD dosimeters. OSL dosimeters can have an LLD as low as 1-10 μSv (microsievert), while TLD dosimeters usually have a higher LLD, often at or above 10 μSv. A lower LLD is advantageous because it reduces the likelihood of missing even small doses of radiation during a given wear period. This is important for adhering to the As Low As Reasonably Achievable (ALARA) principle, which aims to minimize radiation exposure to the lowest possible level.
To illustrate the significance of a lower LLD, let’s consider an example. Suppose an x-ray technician wears a dosimeter with an LLD of 10 μSv and is exposed to 9 μSv of radiation each month. If the reported dose is determined solely by the dosimeter’s LLD, it would be labeled as “minimal” each month. However, over a year, the accumulated missed dose could reach up to 100 μSv (9 μSv * 12 months = 108 μSv). This accumulation of missed doses could eventually exceed the ALARA limits, potentially posing health risks. It’s important to note that while some dosimeters may advertise an LLD below 10 μSv, particularly in the case of TLD dosimeters, the precision of measurement at such low levels of exposure tends to decline. This suggests that relying on dosimeters with lower LLDs might yield less accurate results for doses below 10 μSv under routine conditions.
Caution should be exercised when considering dosimeters with excessively low LLDs. The benefits of using OSL dosimeters in LLD can typically be more accurate than other types of badges. It’s essential to consider the precision of dosimeters when selecting devices with particularly low LLDs. As always, we recommend you consult with your Radiation Safety Officer (RSO) for more information.
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