Five pillars.
One framework.
The EFEIA Research Institute organizes its work around five integrated programs. Each one investigates artificial EMF exposure within a distinct domain: human health, the natural environment, transportation, biophoton signatures, and quantum-scale physics.
An integrated framework for artificial EMF research
Artificial electromagnetic exposure shows up wherever a person lives, works, or moves. Studying its impact requires more than one method or one population.
The Institute's five-pillar structure groups our investigations by domain, so that each effort builds on dedicated expertise. The framework as a whole keeps the research connected: findings in one program inform the questions asked in the others.
From the Institute to the field, in one map
How artificial EMF affects the human body
SPECTRA brings together our research on people. The pillar studies electrohypersensitivity at population scale, the central sensitization mechanisms behind it, exposure risk for children and adolescents, and the distinct response profiles that complicate clinical recognition.
- EHS Global CensusActive
- Central Sensitization & EHSPlanned
- Youth Exposure EducationActive
- EMF Risk AssessmentActive
- EHS Phenotype ResearchPlanned
How artificial EMF affects the natural world
TERRA examines ecosystems under electromagnetic pressure. The pillar covers pollinator survival, soil and crop health, broader ecological function, and the consequences for livestock and the food supply. Our flagship project tracks how artificial EMF disrupts honeybee colony behavior and survival.
- Apiary ProtectionActive
- Agriculture & Soil HealthPlanned
- Ecosystem Impact StudiesPlanned
- Livestock & Poultry HealthPlanned
EMF exposure inside the vehicles we live in
NEXUS measures artificial EMF where occupants face concentrated, prolonged exposure in confined spaces: electric and hybrid vehicles, commercial aircraft cabins, and maritime vessels. The pillar's automotive line of work characterizes EV cabin fields with full sensor coverage and per-seat profiling.
- Automotive ResearchActive
- Aviation EMF AssessmentPlanned
- Maritime EMF AssessmentPlanned
Reading the body's own light
LUMINA is our biophoton program. The pillar develops ultraweak photon emission as a non-invasive biomarker of cellular state, and explores photon-based detection methods that can characterize artificial EMF pollution beyond conventional spectrum analyzers.
- Biophotons as BiomarkersPlanned
- EMF Pollution Photon Detection MethodsPlanned
The physics beneath the field
QUANTIS is our quantum-physics pillar. The program treats artificial quantum noise as a distinct exposure category and investigates how artificial EMF interacts with biological quantum coherence. Findings here feed back into how the other four pillars define exposure itself.
- Artificial Quantum NoisePlanned
- Quantum Coherence & EMFPlanned