About: Atomic dielectric resonance   Sponge Permalink

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Atomic Dielectric Resonance (ADR) , , is a patented investigative technique (US 6864826 B1) that can image inside materials (e.g. underground) and classify the materials being imaged. It does this by measuring and interpreting resonant energy responses of natural or synthetic materials while these interact with pulsed electromagnetic radio waves, microwaves, millimetric or sub-millimetric radio waves being passed through them.

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rdfs:label
  • Atomic dielectric resonance
rdfs:comment
  • Atomic Dielectric Resonance (ADR) , , is a patented investigative technique (US 6864826 B1) that can image inside materials (e.g. underground) and classify the materials being imaged. It does this by measuring and interpreting resonant energy responses of natural or synthetic materials while these interact with pulsed electromagnetic radio waves, microwaves, millimetric or sub-millimetric radio waves being passed through them.
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dbkwik:speedydelet...iPageUsesTemplate
Page
  • Atomic dielectric resonance
substed
  • yes
Day
  • 13(xsd:integer)
Month
  • June
Timestamp
  • 20120613031636(xsd:double)
Year
  • 2012(xsd:integer)
abstract
  • Atomic Dielectric Resonance (ADR) , , is a patented investigative technique (US 6864826 B1) that can image inside materials (e.g. underground) and classify the materials being imaged. It does this by measuring and interpreting resonant energy responses of natural or synthetic materials while these interact with pulsed electromagnetic radio waves, microwaves, millimetric or sub-millimetric radio waves being passed through them. The resonant energy response can be measured in terms of energy, frequency and phase relationships. The precision with which the process can be measured helps define the unique interactive atomic or molecular response behaviour of any specific material, according to the energy bandwidth used. ADR is measurable on a very wide range of hierarchical scales both in time and space. Time scales may range from seconds to femtoseconds, and spatial scales from metres to nanometres. The reaction or results of this interaction may be observed, measured and analysed on a specially controlled ADR scanning system designed and built to quantify the ADR effects of any material or object to be studied and typecasted by this method. This allows the materials or objects to be identified in any future scanning operation of unknown objects, with a view to identify the said objects by the characteristic ADR effects.
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