use of speckle laser to identify canopy variations in plants subjected to ultra-high diluted substances

International Journal of High Dilution Research - ISSN 1982-6206 Pub Date : 2022-09-27 DOI:10.51910/ijhdr.v21i2.1219

J. Zanco

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Abstract

The reaction of plants to ultra-high dilute substances (UHD) is well known, however, the signaling of the immediate effect still doesn't have a widely accepted methodology. The objective of this experiment was to use non-destructive sampling to find signs of UHD soon after application to plants. The control consisted of untreated purslane [Pilea microphylla (L.) Liebm] plants and imaged with a digital camera Mobius (CMOS 1270x720 pixels) directed at a laser beam (±680 nm) emitted over the plant canopy for 220 seconds, with 6-second intervals. Then, the same plants were treated with Fluoricum acidum 30CH (Fl. ac. 30), and ten minutes later, new images of the leaves were taken to verify the possible existence of reaction patterns of the plants generated by Biospeckle Laser (1,2). Several types of imaging were performed to choose the image pattern, and the NIR type was chosen, generated by the Mobius camera connected directly to a laptop. The images were treated using the THSP algorithm, which generated data to compare the variation of pixel intensity with and without the presence of UHD. Research has shown that "Fl. ac. 30" is identified in purslane plants soon after application and this sign persists for at least 180 minutes after application, with a significant difference from the control at the 1% probability level. Keywords: computational vision; homeopathy signal; dynamic laser speckle

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利用散斑激光识别受超高稀释物质影响的植物冠层变化

植物对超高稀物质(UHD)的反应是众所周知的，然而，即时效应的信号仍然没有一个广泛接受的方法。本实验的目的是在应用于植物后不久使用非破坏性取样来发现超高清的迹象。对照为未经处理的马齿苋(Pilea microphylla, L.)用Mobius数码相机(CMOS 1270x720像素)对准在植物冠层上发射的激光束(±680 nm)，拍摄220秒，间隔6秒。然后，同样的植物用氟酸30CH (Fl. ac. 30)处理，十分钟后，拍摄新的叶片图像，以验证生物斑点激光产生的植物可能存在的反应模式(1,2)。进行了几种类型的成像以选择图像模式，并选择了近红外类型，由直接连接到笔记本电脑的Mobius相机生成。使用THSP算法对图像进行处理，该算法生成的数据用于比较有和没有UHD存在时像素强度的变化。研究表明，“Fl. ac. 30”在施用后很快在马齿苋植物中被识别出来，并且该标志在施用后至少持续180分钟，与1%概率水平下的对照有显著差异。关键词:计算视觉;顺势疗法的信号;动态激光散斑

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International Journal of High Dilution Research - ISSN 1982-6206

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