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Chapter 3 – The Information Dimension of Liquids 

Essential oils are not just biochemical mixtures; they behave like living liquids capable of receiving, storing and transmitting information. This idea, which at first glance seems poetic, gains scientific consistency when we look at how liquids are internally organized, how they interact with light and electromagnetic fields and how coherent structures that carry an informational signature can be formed. In this light, a NEOS mixture becomes a dual carrier: of chemistry (active molecules) and of information (matrix/program).

3.1. Liquid as a dynamic network: what “holds” information
On a microscopic scale, liquids are dynamic networks of molecules that continuously bind, unbind and rearrange. In water, the skeleton of this network is given by hydrogen bonds (H-bonding). 
Recent research has introduced a new spectroscopic method — correlated vibrational spectroscopy (CVS) — that separates the contributions of molecules that actively participate in the network of bonds from those that do not, opening an experimental “eye” to how charge, energy and coherence are distributed in the liquid. In short: we can “see” how populations of molecules differentiate according to their role in the network and how this network responds to stimuli. This fine separation between “interacting vs. non-interacting molecules” supports the idea that a liquid has micro-structures capable of carrying subtle signatures, and therefore potentially information. 

3.2. Water as an information medium: aquaphotomics
Aquaphotomics studies how water interacts with light (especially in the NIR/IR) and how its spectrum reflects the “state” of the biological system: composition, temperature, stress, presence of solutes. Basically, water “changes its spectral voice” depending on the context, and this voice can be read as an informational code. For essential oils (where water can be present in trace amounts and the receptive biological system is aquatic), this suggests a way in which the signature of a program (matrix) could be “read” indirectly at the spectral or functional level. 

3.3. Coherence in liquids: from theory to practical implications
Quantum electrodynamics models applied to water have introduced the idea of “coherent domains”: regions where water molecules oscillate synchronously under the action of light, generating a collective behavior with distinct electromagnetic properties. 
Although not all aspects are unanimously accepted, these theories have inspired interdisciplinary research linking coherence to memory, available energy, and efficient signal transfer in biological systems. For the purpose of this paper, the relevant idea is that a liquid can acquire internal order sensitive to subtle stimuli — premises for storing/transmitting information. 

3.4. Liquid and electromagnetic signals
There have been reported situations (controversial, but persistent in the literature) in which dilute aqueous solutions have emitted measurable electromagnetic signals, suggesting the existence of nano-structures capable of preserving information related to the initial content. Regardless of the legitimate disputes surrounding these results, their value for our paradigm is that we cannot exclude that a liquid, under certain conditions, can become a medium for storing/transferring signals. 
In NEOS practice, this hypothesis supports the possibility that the matrix imprinted in a mixture has a physical substrate of manifestation. 

3.5. “Liquid Intelligence”: An Integrative Framework
At the frontier, theoretical proposals are emerging that view water (and, by extension, biological liquid media) as coherent media sensitive to light, frequencies, and fields; in these visions, the liquid is not just a solvent, but a processing system that orchestrates energy transfer and the synchronization of cellular processes. Without confusing these emerging models with consensus, it is worth noting that they offer an integrative framework in which the matrix imprinted in the mixture can be understood as a pattern of coherence that guides how the body receives the message. (This direction is developing and should be treated with epistemic caution.) 

3.6. Matrix in NEOS practice: from program to effect
In the NEOS laboratory, psychoinformational matrices (Matrix) — developed by Professor Albert Ignatenko — are applied at the formulation/activation stage: they encode the therapeutic intention (e.g., “neurovegetative balance”, “inner peace”), order the field of the mixture and establish a resonance direction. From the perspective of liquid science, this process can be viewed as inducing a coherence preference in the liquid environment, so that, once applied to the skin or inhaled, the mixture transmits both molecules (biochemical effect) and the informational pattern (vibrational/psychoneurophysiological effect). In practice, the matrix signature can be reflected in:
• physiological responses (HRV, cortisol, inflammatory markers),
• psychological states (calm, focus, safety),
• behavioral alignment (sleep, breathing, rhythm).

3.7. Why this dimension matters
Integrating the information dimension explains why, in practice, the same biochemical profile can produce different effects depending on how it was formulated, who created it, and in what context it is applied. NEOS mixtures thus become vehicles of integration: the chemistry initiates change at the cellular level, and the matrix supports coherence at the mind-body-soul level — which clinically translates into more stable results and better inner alignment.

📌 Expert information – Chapter 3
• Flór M. et al. (2024) / Roke S. (EPFL) — Correlated Vibrational Spectroscopy (CVS): a method that separates the contributions of molecules involved vs. not involved in the hydrogen bonding network of water, providing a new “picture” of the coherence and charge distribution in the liquid. (Science; EPFL news release). 
• Aquaphotomics (Tsenkova R., 2005–present; review Muncan J., 2019): the interaction of water with light (NIR/IR) as a spectral “language” reflecting the state of the system; experimental framework to “read” informational signatures in biological aqueous environments. 
• Coherent Domains in Water (Del Giudice, Preparata, Vitiello; review Ho M.W., 2014): QED theory on water that supports the existence of coherent domains; useful as a model for informational order storage/transfer, with legitimate debates in the specialized literature. 
• Electromagnetic Signals in Aqueous Solutions (Montagnier L. et al., 2009): reporting EM signals produced by aqueous DNA-derived nanostructures; controversial results, but relevant for the hypothesis of liquid as a signal storage/transfer medium. 
• “Liquid Intelligence” / integrative models (Decker & Decker, 2025 – preprint): water as a coherent medium sensitive to frequency, light and fields; emerging theoretical framework supporting the role of liquid in synchronizing cellular processes; requires further validation. 
• Psychoinformational technologies (Matrix), developed by Professor Albert Ignatenko: applied in the NEOS laboratory to activate the informational dimension and introduce healing programs into essential oil mixtures (NEOS institutional source; standardized internal communications and protocols)