Using infrared thermography (the Tomsk phenomenon) to study spatial and temporal evolution of aperiodic energy entities

Vavilov, V. P.

doi:10.1134/S1061830906040103

Using infrared thermography (the Tomsk phenomenon) to study spatial and temporal evolution of aperiodic energy entities

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Published: April 2006

Volume 42, pages 287–289, (2006)
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V. P. Vavilov¹

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Abstract

Experiments where continuous high-frequency recording of IR thermograms was performed for 1.5 days demonstrated that the studied area contained a temperature anomaly (energy entity) characterized by the following parameters: a lifetime of about 1/6 s, characteristic dimensions of 1.5 m, and an excess temperature of 0.8°C.

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References

Devil, D., Abnormal Phenomena in the Atmosphere: World Collection of Unidentified Cases, Hell Publ. House, 2006.

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Research Institute of Introscopy, ul. Savinykn 7, Tomsk, 634028, Russia
V. P. Vavilov

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V. P. Vavilov
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Vavilov, V.P. Using infrared thermography (the Tomsk phenomenon) to study spatial and temporal evolution of aperiodic energy entities. Russ J Nondestruct Test 42, 287–289 (2006). https://doi.org/10.1134/S1061830906040103

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Received: 02 March 2006
Issue Date: April 2006
DOI: https://doi.org/10.1134/S1061830906040103

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Using infrared thermography (the Tomsk phenomenon) to study spatial and temporal evolution of aperiodic energy entities

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Determination of the optical and the thermal properties of an absorbing medium by using infrared thermometry

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Using infrared thermography (the Tomsk phenomenon) to study spatial and temporal evolution of aperiodic energy entities

Abstract

Access this article

Similar content being viewed by others

Determination of the optical and the thermal properties of an absorbing medium by using infrared thermometry

Do we really know what temperature is: from Newton’s cooling law to an improved understanding of thermal analysis

Infrared Thermography: From Sensing Principle to Nondestructive Testing Considerations

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