Evaluating Possible Methods and Approaches for Registering of Electromagnetic Waves Emitted from the Human Body

Advances in Physics Theories and Applications Pub Date : 2014-06-25 DOI:10.13187/EJNR.2014.2.96

I. Ignatov, O. Mosin, H. Niggli, Christos Drossinakis

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引用次数: 79

Abstract

This paper presents the results of evaluation of possible biophysical methods and approaches for registering various non-ionizing radiation (NIR) wave types of the human body in the electromagnetic range. Many types of NIR (electromagnetic waves, infrared radiation, thermo radiation, bioluminescence) emitted from the human body were reviewed. In particular the results of spontaneous biophoton emission and delayed luminescence from the human body are submitted along with i nfrared thermography (IRT) results. It was shown that 1 cm 2 of skin generally emits ~85 photones for 1s. The intensity of biophoton emission ranges from 10 ?19 to 10 ?16 W/cm 2 (approx. ~1–1000 photons . cm -2. s -1 ). The specific photon emission from part of the human thumb was detected as a spectrum of various colours with the method of Color coronal spectral analysis on a device with an electrode made ??of polyethylene terephthalate (PET hostafan) with applied electric voltage of 15 kV, electric impulse duration 10 ms, and electric current frequency 15 kHz. It was established that photons corresponding to a red color emission of the visible electromagnetic spectrum have energy at 1.82 ?V. The orange color of the visible electromagnetic spectrum has energy at 2.05, yellow – 2.14, blue-green (cyan) – 2.43, blue – 2.64, and violet – 3.03 eV. The reliable result measurement norm was at E ? 2.53 eV, while the spectral range of the emission was within 380–495 nm and 570–750 nm±5 nm. Some important physical characteristics were also demonstrated (energy of hydrogen bonds, wetting angle, surface tension) of water by the methods of non-equilibrium energy (NES) and differential non-equilibrium energy (DNES) spectrum of water, that helps understand in general how electromagnetic radiation interacts with water and establishes the structural alterations of water. Keywords: electromagnetic waves, infrared radiation, thermo radiation, bioluminescence, color coronal spectral analysis, NES, DNES

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评估人体发射电磁波登记的可能方法和途径

本文介绍了在电磁范围内记录人体各种非电离辐射(NIR)波类型的可能的生物物理方法和途径的评估结果。综述了人体发射的多种近红外(电磁波、红外辐射、热辐射、生物发光)。特别是自发光子发射和人体延迟发光的结果与红外热成像(IRT)结果一起提交。结果表明，1 cm²的皮肤在1s内一般能发出~85个光子。光子发射强度范围为10.19 ~ 10.16 W/ cm2。~ 1-1000个光子。厘米2。S -1)。利用彩色日冕光谱分析的方法，在一个带有电极的装置上检测了人类拇指部分的特定光子发射的各种颜色的光谱。聚乙烯对苯二甲酸酯(PET hostafan)，施加电压为15千伏，电脉冲持续时间为10毫秒，电流频率为15千赫。确定了可见电磁波谱中红色发射对应的光子能量为1.82 V。可见电磁波谱中橙色的能量为2.05 eV，黄色为2.14 eV，蓝绿色(青色)为2.43 eV，蓝色为2.64 eV，紫色为3.03 eV。可靠的结果测量规范在E ?2.53 eV，发射光谱范围为380 ~ 495 nm和570 ~ 750 nm±5 nm。通过水的非平衡能谱(NES)和微分非平衡能谱(DNES)的方法，证明了水的一些重要的物理特性(氢键能、润湿角、表面张力)，有助于从总体上理解电磁辐射如何与水相互作用，并建立水的结构变化。关键词:电磁波，红外辐射，热辐射，生物发光，彩色日冕光谱分析，NES, DNES

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Advances in Physics Theories and Applications

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