Spectroscopic, Dielectric Dispersion and Quantum Electrodynamical viewpoint of Ultrahigh Dilutions

Let the science be challenged by science only and not skepticism

International Journal of High Dilution Research latest issue 15(3) is available online now!

Spectroscopic, Dielectric Dispersion and Quantum Electrodynamical viewpoint of Ultrahigh Dilutions

Dr. Saurav Arora

editor@highdilution.org

In previous issues, Sukul et al published two papers on Raman spectroscopic profiles of Sulphur, Natrum mur, Calcarea carb and Sepia. The authors observed that the free water molecules and hydrogen bond strength of OH groups are two unique features that differentiate a drug and even potency. The latest article in this issue is in continuation of the previous work. In this work authors studied the Raman spectra and FTIR profiles of three dilutions of X-ray and Magnetis poli ambo. The work seems interesting as these remedies are imponderabilia and do not have any molecular starting point, therefore, their mother tinctures, potencies, and vehicle are identical with respect to chemical composition, i.e. ethanol and water. This goes in contrast and comparison to previous works with organic and inorganic sources remedies.

The authors report that the electromagnetic and magnetic fields are capable of producing marked changes in water structure in water-ethanol solution. Such changes are mainly alteration in hydrogen bond strength and OH groups. The changes are induced by potentization and carried over to higher potencies, and cab be quantified using FTIR and Raman spectroscopic profiles. (*Full Paper Link*: http://bit.ly/2dFaYvW)

The second paper, by Mahata and Chattopadhyay, open up a new arena of experiments, challenge, and curiosity. The work aims to find out whether any similarity picture exists at the molecular level which may aid in the selection of medicines at the clinical level. In his previous works, Mahata has repeatedly shown the variation in frequency of ultrahigh dilutions (UHD) using dielectric dispersion concept. This paper goes a step ahead in finding the frequencies domain signatures of patient’s bio-fluid (blood serum) and matching that with those of drug. But at present, this research is limited to matching profile in arthritis patients only. These results are explorative and enthusiastic but need further rigorous research before a generalization is extended to other conditions and setups. (*Full Paper Link*: http://bit.ly/2e39w2b)

The third paper by Nandy et al discusses the physical properties of UHDs from classical and quantum electrodynamical point of view. The paper is based upon the previous works done by the author and her team on modulation of liposomal membrane fluidity, enhancement of efficiency of solar energy conversion and effect of homeopathic medicine on electroactive polymer. (*Full Paper Link*: http://bit.ly/2dVS6DW)
IJHDR invites your valuable views.