Welcome to the Dosimetry Resource Center. Please save this page so that you may access the Resource Center whenever it is convenient for you. To download any of our technical posters, simply click on the links below.
|EPD TruDose for dosimetry in short pulsed X-ray fields|
Several X-Ray sources for mobile applications are available. The most compact, lightweight and robust models use a simple flash technique to produce the high voltages required for X-Ray generation.
|Dose Reanalysis Feasability Study Using Harshaw TLD™ LiF:Mg,Cu,P|
Thermo Scientific™ Harshaw™ TLD high residual MCP material is studied regarding the feasibility of reanalysis of LiF-based materials.
|Extensive Fade Study of Harshaw LiF TLD™ Materials|
Two parts of a fade study on signal loss and sensitivity loss were carried out in a long-term period of 500+ days at temperatures of 0˚C, 20˚C, and 40˚C using more than 3500 dosimeters.
|An Improved Harshaw TLD™ Extremity Dosimeter DXT-RAD Beta Ring|
The rugged and easy to wear Thermo Scientific™ DXT-RAD™ passive extremity dosimeter system is presented.
|Long-Term Study of Thermo Scientific™ Harshaw™ LiF Glow Curve Peaks and Sensitivities|
Part III of a long term study of Thermo Scientific™ Harshaw™ TLD LiF materials presents analysis and sensitivity change over 24 months for LiF:Mg,Ti and LiF:Mg,Cu,P materials stored at 0°C, 20°C, and 40°C.
|Lower Limit of Detection Study and Uncertainty Analysis of Harshaw LiF TLD Material|
A long term study of the lower limit of detection (LLD) and uncertainty analysis of various LiF materials at storage temperatures of 0˚C, 20˚C, and 40˚C using more than 3500 dosimeters is presented.
|Type Test a New Personnel Dosimeter System to IEC 62387:2012|
This paper presents the high achieving type test results and uncertainty analysis from a series of tests performed on the Thermo Scientific™ Harshaw™ Model 8850 Personal Dosimeter.
|UV-Induced Bleaching of Deep Traps in Harshaw TLD LiF:Mg,Cu,P and LiF:Mg,Ti|
The effects of UV-induced bleaching of deep traps on Thermo Scientific™ Harshaw™ thermoluminescent LiF:Mg,Cu,P and LiF:Mg,Ti materials were investigated.