Effect of emitted qi on laser fluorescence and ultraviolet on the rhodamin dyestuff

Author: Li Shengping 1//Meng Guirong 1//Cui Yuanhao 1//Sun Mengyin 1//Zhang Fushi 1//Tang Yingwu 1//Qiu Yong 1//Li Jinghong 1//Xin Yan 2
Tsinghua University, Beijing, China [1] //Municipal Institute of Traditional Chinese Medicine of Chongqing, Sichuan Province, China [2]
Conference/Journal: 1st World Conf Acad Exch Med Qigong
Date published: 1988
Other: Pages: 167 , Word Count: 273

We have used three large analytical instruments--an infrared thermovision, an ultraviolet-light-visible spectrometer and a laser induced fluorescence instrument to examine the samples of Rhodamin dyestuff after the effect of the emitted qi 2000 km away.

Medicines and chemical reagents used in the experiment were Rhodamin 6G samples produced by the German MERCK Co. The molecular formula of spectroscopic purity is C[sub 28]H[sub 31]CIN[sub 2]O[sub 3] with a weight of 478.028 g/mol.

The sample is aqueous solution of Rhodamin with a density of 10[power -6] mol/l.

The experimental location is inside a light-tight lab of the Chemistry Department, Tsinghua University.

The qigong master emitted his qi 2000 km away from the sample. The experiment was carried out four times in all and each time, each experiment was done repeatedly 4 to 6 times.

Before each experiment. we must do initial condition of the sample. After the stability of the sample was verified, the sample in the big container was put into six tubes, three of which were used as an experimental group and the other three as a contrast group.
The duration of each qi emission was thirty to forty minutes. The experimental sample and the contrast sample must be examined randomly and alternately to ensure that the analytical instrument worked well.
Repeated experiments indicate that the effect of the emitted qi 2000 km away can really affect the molecular structure of the Rhodamin dyestuff to some extent.

Table 1 is the typical experimental results of infrared thermovision, laser fluorescence and ultraviolet respectively in the experiment between Guangzhou and Beijing.

Table 1

Temperature (deg C)
Sample Room°C t[sub orig] t[sub final] Change (deg C)
_______ _____________________________________________________________
1# & 2# 11.0 11.0 16.2 5.2