PACE Peer Review: Aires Crystal C20S5G Resonator at 5G Frequencies
Independent peer review by Dr. Andrew Michrowski, PACE — NGO in UN ECOSOC Consultative Status • January 14, 2019
About PACE
The Planetary Association for Clean Energy, Inc. (PACE) is a Canadian scientific organization in Special Consultative Status with the Economic and Social Council (ECOSOC) of the United Nations. Based in Ottawa, PACE conducts independent Radiation and Environmental Surveys and expert peer reviews of EMF and electromagnetic health research. These reviews represent independent third-party validation by a UN-affiliated scientific body.
Studies Reviewed
PACE independently peer-reviewed two 2018 R&D reports modeling the interaction of the Aires C20S5G microprocessor (used in the Aires Crystal 2019 model) with 5G frequencies of 6 GHz and 28 GHz. This peer review was issued January 14, 2019, by Dr. Andrew Michrowski.
Both reports were managed by I. Serov, with researchers K. Korshunov, I. Soltovskaya, T. Shamko, and consultants Prof. A. Kopyltsov and Prof. A. Jukna.
Advanced Hyper-Complex Modeling
PACE highlighted the inclusion of additional factors not considered in standard commercial software: time domain analysis, heterodyne (electric and power coupling with lower frequency bands), bi-phasic (counter-resonance) response, and superposition effects. This inclusive methodology produces more realistic results than classical physics packages.
5G Frequency Landscape Context
The 5G Internet of Things encompasses interoperability from approximately 40 MHz to 90 GHz, making both 6 GHz (significant for public personal-use Wi-Fi) and 28 GHz (mmWave, approved in USA and Europe) critical frequencies for Aires resonator performance validation.
MEMS Technology Validation
The modeling confirms that the MEMS-manufactured C20S5G microprocessor can effectively operate within the 5G signaling environment, with counter-wave interaction and derivative resonances producing the coherent signal transformation characteristic of all Aires resonators.
Peer Reviewer Conclusion
Dr. Michrowski concluded the reports demonstrate the Aires C20S5G resonator's capability for operation within the 5G electromagnetic environment, with modeling methodology that properly accounts for the hyper-complex interactions standard software packages miss.