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Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder

By Trivedi Effect
December 21, 2015

Journal: American Journal Of Physics And Applications PDF  

Published: 21-Dec-15 Volume: 3 Issue: 6 Pages: 215-220

DOI: 10.11648/j.ajpa.20150306.15 ISSN: 2330-4286 (Print) 2330-4308 (Online)

Authors: Mahendra Kumar Trivedi, Rama Mohan Tallapragada, Alice Branton, Dahryn Trivedi, Gopal Nayak, Omprakash Latiyal, Snehasis Jana

Citation: Mahendra Kumar Trivedi, Rama Mohan Tallapragada, Alice Branton, Dahryn Trivedi, Gopal Nayak, Omprakash Latiyal, Snehasis Jana. Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder. American Journal of Physics and Applications. Vol. 3, No. 6, 2015, pp. 215-220. doi: 10.11648/j.ajpa.20150306.15

 

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Abstract

Manganese sulfide (MnS) is known for its wide applications in solar cell, opto-electronic devices, and photochemical industries. The present study was designed to evaluate the effect of biofield energy treatment on the atomic and physical properties of MnS. The MnS powder sample was equally divided into two parts, referred as to be control and to be treated. The treated part was subjected to Mr. Trivedi’s biofield energy treatment. After that, both control and treated samples were investigated using X-ray diffraction (XRD), Fourier transform infrared (FT-IR) spectroscopy, and electron spin resonance (ESR) spectroscopy. The XRD data revealed that the biofield energy treatment has altered the lattice parameter, unit cell volume, density, and molecular weight of the treated MnS sample as compared to the control. The crystallite size on various planes was significantly changed from -50.0% to 33.3% in treated sample as compared to the control. The FT-IR analysis exhibited that the absorption band attributed to Mn-S stretching vibration was reduced from (634 cm-1) to 613 cm-1 in treated MnS as compared to the control. Besides, the ESR study revealed that g-factor was reduced by 3.3% in the treated sample as compared to the control. Therefore, the biofield energy treated MnS could be applied for the use in solar cell and semiconductor applications.

Conclusion

The effect of biofield energy treatment on the atomic and physical properties of MnS was analyzed. The XRD data revealed that the biofield energy treatment has altered the lattice parameter, unit cell volume, density, and molecular weight of the treated MnS sample as compared to the control. The alteration in molecular weight could be due to the interaction of biofield energy with the neutron and proton of the MnS nucleus. The crystallite size on crystalline plane (220) was reduced upto 50% in the treated sample as compared to the control. The change in crystallite size may alter the energy band gap of MnS. Besides, the FT-IR analysis revealed that the absorption band attributed to Mn-S stretching vibration was reduced from 634 cm-1 (control) to 613 cm-1 in the treated MnS as compared to the control. It may be due to reduction of bond force constant in MnS through biofield energy treatment. In addition, biofield energy treatment has reduced the g-factor by 3.3% (2.162?2.090) in the treated sample as compared to the control. Thus, above data suggested that biofield energy treatment has considerable impact on the atomic and physical properties of MnS. Therefore, the biofield energy treatment could be applied to modify the atomic and physical properties of MnS for the solar cell and semiconductor industries.

 

 

 

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