{"title":"Two-dimensional Keitz method for the radiant power measurement of planar ultraviolet excilamps.","authors":"Qianwen Zhu, Fusheng Li, Qiuyi Han, Shanduan Zhang","doi":"10.1364/AO.520397","DOIUrl":null,"url":null,"abstract":"<p><p>Planar <i>X</i> <i>e</i> <i>B</i> <i>r</i> <sup>∗</sup> and <i>X</i> <i>e</i> <i>C</i> <i>l</i> <sup>∗</sup> excilamps emitting noncoherent narrowband UVB light (280-315 nm) are now widely used to cure psoriasis and vitiligo as well as to improve vitamin D synthesis. The two-dimensional integral formula has been deducted in this study, which is a good method and has great practical significance to calculate the total radiant power and assess the energy efficiency of a planar UV lamp. The measured radiant power of planar white LED lamps through a two-dimensional Keitz formula has been compared to that of gonio-photometer, verifying the applicability of the formula. The optimum measurement distance is dependent on the lamp length (1.5<i>L</i>≤<i>D</i>≤3.5<i>L</i>) for which the derivation from the two methods can be controlled within 10%. The planar <i>X</i> <i>e</i> <i>B</i> <i>r</i> <sup>∗</sup> excilamps have been measured and compared to coaxial excilamps, which show similar patterns of change for the radiant characteristics. Since the planar radiant power formula only needs to measure normal illuminance at a certain distance from the symmetric center of the lamp, it is more convenient to use and is a low-cost method to promote the development of large-sized planar ultraviolet lamps.</p>","PeriodicalId":101299,"journal":{"name":"Applied optics","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-05-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Applied optics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1364/AO.520397","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Planar XeBr∗ and XeCl∗ excilamps emitting noncoherent narrowband UVB light (280-315 nm) are now widely used to cure psoriasis and vitiligo as well as to improve vitamin D synthesis. The two-dimensional integral formula has been deducted in this study, which is a good method and has great practical significance to calculate the total radiant power and assess the energy efficiency of a planar UV lamp. The measured radiant power of planar white LED lamps through a two-dimensional Keitz formula has been compared to that of gonio-photometer, verifying the applicability of the formula. The optimum measurement distance is dependent on the lamp length (1.5L≤D≤3.5L) for which the derivation from the two methods can be controlled within 10%. The planar XeBr∗ excilamps have been measured and compared to coaxial excilamps, which show similar patterns of change for the radiant characteristics. Since the planar radiant power formula only needs to measure normal illuminance at a certain distance from the symmetric center of the lamp, it is more convenient to use and is a low-cost method to promote the development of large-sized planar ultraviolet lamps.
发射非相干窄带紫外线(280-315 nm)的平面 X e B r ∗ 和 X e C l ∗激光灯目前被广泛用于治疗牛皮癣和白癜风,以及改善维生素 D 的合成。本研究演绎了二维积分公式,这是计算平面紫外灯总辐射功率和评估其能效的一种好方法,具有重要的现实意义。通过二维 Keitz 公式测得的平面白光 LED 灯辐射功率与虹霓光度计测得的辐射功率进行了比较,验证了该公式的适用性。最佳测量距离取决于灯管长度(1.5L≤D≤3.5L),两种方法的推导结果均可控制在 10%以内。对平面 X e B r ∗激光灯进行了测量,并与同轴激光灯进行了比较,两者的辐射特性显示出相似的变化规律。由于平面辐射功率公式只需测量离灯对称中心一定距离的正常照度,因此使用更方便,是促进大型平面紫外灯发展的低成本方法。
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