PEER-REVIEWED STUDIES

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    This research is the most comprehensive explanation of how the Aires devices work and their ability to protect from EMR. Aires’ approach involves creating a specific EMF in the form of a fractal, coherent matrix around the biological object or between it and the radiation source. The document elaborates on the device's optimized placement, the principles behind the transformation of EMR, and the potential benefits of the devices.

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    This research investigates how the Lifetune Aires silicon resonator chip, with its unique structure, interacts with EMR. Using computer simulations, researchers present their findings on how this Aires silicon resonator chip responds differently to such radiation due to its innovative shape and design.

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    This study explores how the Aires Defender device can potentially improve body adaptability using heart rate variability (HRV) as a measure. Findings suggest the device can enhance autonomic balance and reduce physiological stress, thus increasing the body's ability to adapt.

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    This study examines the implications of the Aires fractal resonator on the state of red blood cells in humans, particularly from multiple myeloma patients. The paper focuses on evaluating red blood cell behavior and fragility in response to changes in environmental conditions. The research analyzes the effects of Aires technology on red blood cell characteristics to determine potential benefits in promoting blood cell stability and overall blood functionality.

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    This report examines the interaction of Aires resonators with electromagnetic radiation at a frequency of 6 GHz. It focuses on the Aires C20S5G Aires silicon resonator chip. The study found that the Aires resonators exhibit broadband interaction with external radiation and a high degree of signal amplification, highlighting their potential use in applications such as medicine, energy conservation, and human protection against EMR.

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    This report examines the interaction of Aires resonators with electromagnetic radiation at a frequency of 28 GHz which is the higher end level of 5G. It focuses on the Aires C20S5G Aires silicon resonator chip. The study found that the Aires resonators exhibit broadband interaction with external radiation and a high degree of signal amplification, highlighting their potential use in applications such as medicine, energy conservation, and human protection against EMR.

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    This report examines the interaction of Aires resonators with electromagnetic radiation at a frequency of 2.4 GHz, focusing on the Aires C32S Aires silicon resonator chip. The study found that the Aires resonators exhibit broadband interaction with external radiation and a high degree of signal amplification, highlighting their potential use in applications such as medicine, energy conservation, and human protection against EMR.

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    The study explores how the Aires Shield device can mitigate changes in electroencephalographic (EEG) parameters caused by a mobile phone's EMF. After examining healthy subjects, the research found that the Aires Shield neutralizes the effect of directional EMR from the phone, effectively countering disruptions and imbalances in EEG rhythm and activity.

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    This study investigates the protective action of Aires devices (Aires Shield, Aires Defender, Aires AquaCluster) against the effects of EMR on water's structural state. The findings indicate all listed devices, as studied by SYSINA Scientific Research Institute, effectively counterbalance radiation impacts, with each providing unique compensating effects.

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Learn why peer-reviewed is the gold standard of scientific validation in the effectiveness of our technology

The differences in claims are important in verifying proof and we've broken down for you the differences in peer-reviewed research and third-party tested.

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