Discover Aires Tech's Groundbreaking EMF Defense Technology
Backed by 22 global patents, 25+ Clinical Trials, 9 Peer-Reviewed Studies
Our Science
Peer-review
PUBLICATIONS
other research
PHYSICS
RATS & HONEY BEES
Physics
PHYSICS
RATS & HONEY BEES
Rats & Honey Bees
PHYSICS
RATS & HONEY BEES
SUPER COMPUTER SIMULATION
EFFECTIVE RANGE
Our Technology
Method for Protecting Biological Objects from the Negative Influence of Electromagnetic Radiation
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Method for Protecting Biological Objects from the Negative Influence of Electromagnetic Radiation
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THE PATENT
WIPO Publication Number # WO_2021064446
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THE PATENT
WIPO Publication Number # WO_2021064446
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Our Science
Computer Simulation of the Response of a Semiconductor Wafer with a Self-Affine Pattern in the Form of a System of Coupled Ring Grooves to Electromagnetic Radiation, was presented on 7th International Congress on Information and Communication Technology (ICICT 2022) and published in the SPRINGER LINK Journal.
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 6 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor)
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Peer-review
Conducted by The Planetary Association for Clean Energy, Inc. NGO in Special Consultative Status with the Economic and Social Council (ECOSOC) of the United Nations – New York / Geneva / Vienna 100 Bronson Avenue / Suite 1001, OTTAWA, Ontario K1R 6G8
Method for Protecting Biological Objects from the Negative Influence of Technogenic Electromagnetic Radiation|2019
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Method for Protecting Biological Objects from the Negative Influence of Technogenic Electromagnetic Radiation|2019
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Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 6 GHz (WiFi 5G)...
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Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 6 GHz (WiFi 5G)...
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Research on Aires Defender’s influence on the variability of heart rhythm | 2013
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Research on Aires Defender’s influence on the variability of heart rhythm | 2013
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Influence of the Aires Shield electromagnetic anomaly neutralizer on changes in EEG parameters caused by a mobile phone's electromagnetic field
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Influence of the Aires Shield electromagnetic anomaly neutralizer on changes in EEG parameters caused by a mobile phone's electromagnetic field
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Study of Effect of the AIRES Fractal Resonator on the State of Erythrocytes in Human Blood
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Study of Effect of the AIRES Fractal Resonator on the State of Erythrocytes in Human Blood
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Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi)...
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Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi)...
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Investigation of the Protective Action of the Aires Microprocessor (Aires Shield; Aires Defender; Aires Aqua Cluster) Against the Effect...
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Investigation of the Protective Action of the Aires Microprocessor (Aires Shield; Aires Defender; Aires Aqua Cluster) Against the Effect...
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PUBLICATIONS
Computer Simulation of the Response of a Semiconductor Wafer with a Self-Affine Pattern in the Form of a System of Coupled Ring Grooves to Electromagnetic Radiation
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Computer Simulation of the Response of a Semiconductor Wafer with a Self-Affine Pattern in the Form of a System of Coupled Ring Grooves to Electromagnetic Radiation
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Investigation of the Circle Fractal Structure Interaction with Gigahertz Frequency Electromagnetic Waves
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Investigation of the Circle Fractal Structure Interaction with Gigahertz Frequency Electromagnetic Waves
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High-frequency electromagnetic radiation action and influence resonators-converters on frequency of chromosome aberrations in bone marrow cells of male Wistar rats
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High-frequency electromagnetic radiation action and influence resonators-converters on frequency of chromosome aberrations in bone marrow cells of male Wistar rats
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Evaluation of the effectiveness of using aires shield electronic Anomaly neutralizers to reduce the negative influence of a Cellular phone's electromagnetic field
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Evaluation of the effectiveness of using aires shield electronic Anomaly neutralizers to reduce the negative influence of a Cellular phone's electromagnetic field
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Distributed computing of interaction of electromagnetic Radiation with a structured surface
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Distributed computing of interaction of electromagnetic Radiation with a structured surface
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OTHER RESEARCH
HUMAN BIOLOGY/ PHYSIOLOGY
Research of indicators of functional state Of a body exposed to the electromagnetic radiation of a mobile phone and the possibility of their correction in the presence of an aires resonator
Research of indicators of functional state Of a body exposed to the electromagnetic radiation of a mobile phone and the possibility of their correction in the presence of an aires resonator
Influence of the Aires Shield electromagnetic anomaly neutralizer on changes in EEG parameters caused by a mobile phone's electromagnetic field
Influence of the Aires Shield electromagnetic anomaly neutralizer on changes in EEG parameters caused by a mobile phone's electromagnetic field
Evaluation of the effectiveness of using aires shield electronic anomaly neutralizers to reduce the negative influence of a cellular phone's electromagnetic field
Evaluation of the effectiveness of using aires shield electronic anomaly neutralizers to reduce the negative influence of a cellular phone's electromagnetic field
Special Aspects of Cerebral Bioelectrical Activity Changes Upon Exposure of Brain to Electromagnetic Radiation, Emitted by Mobile Phone, and Possible Correction Thereof by Combination of AIRES SHIELD Pro and Mobile Phone Pilot Studies
Special Aspects of Cerebral Bioelectrical Activity Changes Upon Exposure of Brain to Electromagnetic Radiation, Emitted by Mobile Phone, and Possible Correction Thereof by Combination of AIRES SHIELD Pro and Mobile Phone Pilot Studies
Research on Aires Defender's Influence on the Variability of Heart Rhythm
Research on Aires Defender's Influence on the Variability of Heart Rhythm
The changing of certain heart rate indicators under the corrective influence of an Aires shield pro device On the electromagnetic radiation of a mobile phone (prestigio)
The changing of certain heart rate indicators under the corrective influence of an Aires shield pro device On the electromagnetic radiation of a mobile phone (prestigio)
Study of Effect of the AIRES Fractal Resonator on the State of Erythrocytes in Human Blood
Study of Effect of the AIRES Fractal Resonator on the State of Erythrocytes in Human Blood
Detecting Conductivity Variations in Water under the Action of the Radiation Emitted by a Radiotelephone With or Without the AIRES Electromagnetic Abnormalities Neutralizer
Detecting Conductivity Variations in Water under the Action of the Radiation Emitted by a Radiotelephone With or Without the AIRES Electromagnetic Abnormalities Neutralizer
Investigation of the Protective Action of the Aires Microprocessor (Aires Shield; Aires Defender; Aires AquaCluster Against the Effect of Electromagnetic Radiation on the Structural State of an Aqueous Environment
Investigation of the Protective Action of the Aires Microprocessor (Aires Shield; Aires Defender; Aires AquaCluster Against the Effect of Electromagnetic Radiation on the Structural State of an Aqueous Environment
PHYSICS
Testing of electromagnetic Radiation resonator-converter Prototype Phase I Report
Testing of electromagnetic Radiation resonator-converter Prototype Phase I Report
Testing of electromagnetic Radiation resonator-converter Prototype Phase II Report
Testing of electromagnetic Radiation resonator-converter Prototype Phase II Report
Testing of electromagnetic Radiation resonator-converter Prototype Phase III Report
Testing of electromagnetic Radiation resonator-converter Prototype Phase III Report
RATS & HONEY BEES
STAGE 1: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 1: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 2: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 2: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 3: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 3: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 4: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 4: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 5: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 5: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
STAGE 5: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus).
STAGE 6: Study of high-frequency electromagnetic radiation impact and Aires resonators influence on behavior, genetic and epigenetic processes in cells of central and peripheral organs (models organisins: rat (Rattus norvegicus) and honey bee (Apis mellifera L.)
SUPER COMPUTER SIMULATION
R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C16S resonator (microprocessor)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C16S resonator (microprocessor)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 6 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor), which is used in the Aires Crystal (2019 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 6 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor), which is used in the Aires Crystal (2019 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor), which is used in the Aires Crystal (2019 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (WiFi 5G) with an Aires C20S5G resonator (microprocessor), which is used in the Aires Crystal (2019 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C28S resonator (microprocessor), which is used in the Aires Defender Pro (2018 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C28S resonator (microprocessor), which is used in the Aires Defender Pro (2018 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C32S resonator (microprocessor), which is used in the Aires Guardian (2018 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an Aires C32S resonator (microprocessor), which is used in the Aires Guardian (2018 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (Wi-Fi 5G) with an Aires 64P1S5G resonator (microprocessor), used in the LIFETUNE Room and LIFETUNE Personal (2020 model)
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R&D: Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 28 GHz (Wi-Fi 5G) with an Aires 64P1S5G resonator (microprocessor), used in the LIFETUNE Room and LIFETUNE Personal (2020 model)
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EFFECTIVE RANGE
R&D: Evaluation of the effective range of the LIFETUNE ONE (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE ONE (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE GO (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE GO (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE FLEX (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE FLEX (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE ZONE (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE ZONE (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE ZONE MAX (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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R&D: Evaluation of the effective range of the LIFETUNE ZONE MAX (2022 model) at a frequency of 4.9 GHz (Wi-Fi 5G)
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