Abstract
<strong class="journal-contentHeaderColor">Abstract.</strong> An optimal lighting setting for the darkroom laboratory is fundamental for the accuracy of luminescence dating results. Here, we present the lighting setting implemented in the new Luminescence Dating Research Laboratory at Stony Brook University, USA. In this study, we performed spectral measurements on different light sources and filters. Then, we measured the optically stimulated luminescence (OSL) signal of quartz and the infrared stimulated luminescence (IRSL) at 50 <span class="ILfuVd" lang="en"><span class="hgKElc"><strong>°</strong></span></span>C (IR<sub>50</sub>) as well as post-IR IRSL at 290 <span class="ILfuVd" lang="en"><span class="hgKElc"><strong>°</strong></span></span>C (pIRIR<sub>290</sub>) signal of potassium (K)-rich feldspar samples exposed to various light sources and durations. Our ambient lighting is provided by ceiling fixtures, each equipped with a single orange light-emitted diode (LED). In addition, our task-oriented lighting, mounted below each wall-mounted cabinet and inside the fume hoods, is equipped with a dimmable orange LED stripline. The ambient lighting, delivering 0.4 lux at the sample position, induced a loss of less than 5 % (on average) in the quartz OSL dose after 24 h of exposure, and up to 5 % (on average) in the IR<sub>50</sub> dose for the K-rich feldspar samples, with no measurable effect on their pIRIR<sub>290</sub> dose. The fume hood lighting, delivering 1.1 lux at the sample position, induced a dose loss of less than 5 % in quartz OSL and K-rich feldspar IR<sub>50</sub> doses after 24 h of exposure, with no measurable effect on their pIRIR<sub>290</sub> dose. As light exposure during sample preparation is usually less than 24 h, we conclude that our lighting setting is suitable for luminescence dating darkrooms, it is simple, inexpensive to build, and durable.
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