Research & measurement.
Independent third-party laboratories in China have measured the effect of the Vibrant Stream platform on water and herbal liquid samples using two distinct analytical methods. The findings are presented here in full, alongside supporting peer-reviewed science and complete methodological disclosure.
Dynamic Light Scattering — Foshan University
Dynamic Light Scattering measures the hydrodynamic diameter of particles and molecular cluster aggregates suspended in water. In water analysis, smaller cluster sizes indicate greater molecular organization and reduced clustering — physical properties associated, in the broader literature, with altered solvation behavior and biological availability.
Three sample groups were measured: untreated silicon mineral water as the baseline; Tibet silicon stock solution at 15,000 ppm as a high-organization reference standard; and silicon mineral water following treatment by the Vibrant Stream platform. Each group consisted of three independent samples.
Per-Sample Results
Individual measurements within each group are presented for full transparency. Variance within the treated group reflects the sensitivity of DLS to sample preparation and dust contamination at very small cluster sizes.
¹H NMR Spectroscopy — Guangzhou Fuda
The Guangzhou Fuda Technology Research Institute conducted a four-report series using ¹H NMR Nuclear Magnetic Resonance to measure the small-molecule water half-peak linewidth of pure water, herbal medicine liquid, and herbal medicine liquid following treatment by the Vibrant Stream Imprinter. Each treated sample was imprinted in a single session lasting less than one hour, then tested at one of two post-imprinting intervals — ten days, or sixty days — to evaluate both the magnitude of the effect and its persistence over time. A lower NMR linewidth in this measurement context is associated with greater molecular organization and reduced cluster size.
The four-report design enables direct comparison between the two untreated controls (pure water and herbal medicine liquid) and the two post-imprint time points, allowing simultaneous evaluation of the effect's depth and its temporal stability.
Notes on Interpretation
The untreated herbal medicine liquid (165.30 Hz) displays a higher NMR linewidth than untreated pure water (131.67 Hz), reflecting the fact that herbal liquids contain complex organic molecules forming larger and more disorganized water cluster networks than pure water alone. The reduction of the treated herbal liquid to 49–51 Hz — well below pure untreated water — indicates molecular reorganization that overcomes the intrinsic complexity of the herbal matrix.
The 10-day and 60-day labels refer to the time elapsed between treatment and NMR measurement — not the duration of the treatment itself. In both cases, the sample was imprinted by the device in a single session lasting less than one hour. The near-identical results at both post-imprint intervals (49.67 Hz at 10 days; 51.44 Hz at 60 days) indicate that the imprinting effect remains stable for at least two months following a single brief exposure — a finding with direct implications for product manufacturing, quality control, and shelf-life characterization.
Full transparency on how the testing was performed.
The laboratory studies presented above were commissioned by Guangzhou Kangxinyuan Intelligent Biotechnology Co., Ltd. (广州市康芯源智能生物科技有限公司) — the China-market partner of Vibrant Stream — and conducted by independent third-party institutions: the Department of Food Science at Foshan University and the Guangzhou Fuda Technology Research Institute.
What These Reports Are
Both studies are instrument-based physical measurements of molecular-scale parameters — particle size by Dynamic Light Scattering, and NMR linewidth by ¹H Nuclear Magnetic Resonance. The reports document what the instruments measured. They are not clinical trials, and they do not directly evaluate biological or wellness outcomes.
What These Reports Are Not
The Guangzhou Fuda reports do not bear the China Metrology Accreditation (CMA) mark. Per the institute's own statement on the reports themselves: "When this report does not bear the CMA qualification mark, the data and results are intended for scientific research, teaching, and internal quality control purposes only, and shall not be used as publicly impartial data." This disclosure is included here for full transparency.
The studies did not employ blinded sham-treatment controls. Future research planned by Vibrant Stream and its partners includes blinded designs and independent replication at additional laboratories.
What These Reports Suggest
The molecular-level changes documented — reductions in water cluster size and NMR linewidth — are consistent in direction and magnitude with effects predicted by published research on water structure and electromagnetic information transfer. The peer-reviewed science section below contextualizes these findings within a broader research literature.
Aflatoxin reduction research — an additional application of the Vibrant Stream platform — is currently being documented. Independent laboratory data showing greater than 75% reduction of aflatoxin contamination in agricultural samples will be added to this page following completion of the report series.
Selected peer-reviewed research.
The following published research provides theoretical and empirical context for the measurements documented above. References are organized by domain. Each citation is tagged to indicate its current status in the broader scientific literature.
Documents the existence of a fourth-phase liquid-crystalline state of water (EZ water) with distinct physical properties from bulk H₂O. Pollack's broader research program at UW provides the foundational physical chemistry context for measurable water restructuring. Peer-reviewed · Frontier-mainstream
Nobel laureate Luc Montagnier's culminating paper documenting electromagnetic signals emitted by aqueous DNA solutions and their capacity to encode informational structure in water. Directly relevant to the platform's operating premise. Peer-reviewed · Contested
Foundational paper establishing that synchronized 40 Hz light and sound stimulation produces measurable neurobiological effects, including reduction of amyloid pathology in Alzheimer's disease models. Peer-reviewed · Established
Extended the GENUS findings to combined audio and visual stimulation, demonstrating broader neural-network effects and translational relevance for human application. Peer-reviewed · Established
Phase 2A randomized, placebo-controlled human trial documenting safety, compliance, and exploratory clinical effects of daily 40 Hz light and sound stimulation in mild Alzheimer's patients. Peer-reviewed · Clinical
Established that all living systems emit coherent ultraweak photon emission, and that this emission carries informational properties relevant to cellular communication and regulation. Peer-reviewed · Frontier
Synthesis of the HeartMath Institute's research program on cardiac electromagnetic field generation and its measurable effects on neurological and physiological coherence. Peer-reviewed · Established
This list is curated rather than comprehensive. Additional citations and updates — including documentation of the aflatoxin research program — will be added as the body of work expands.