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First Order Phase Transitions as Radiation Processes, Part Two 被引量:1
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作者 Vitali A. Tatartchenko Pavel V. Smirnov hongrong jin 《Optics and Photonics Journal》 2014年第2期26-37,共12页
This paper presents new experimental results concerning the PeTa effect—infrared characteristic radiation under first order phase transitions, especially during deposition and condensation of vapours/gases and the cr... This paper presents new experimental results concerning the PeTa effect—infrared characteristic radiation under first order phase transitions, especially during deposition and condensation of vapours/gases and the crystallisation of melts. The abbreviation “PeTa effect” means Perel’man-Tatartchenko’s effect. The nature of the PeTa effect is transient radiation that a particle (i.e., atom, molecule or/and cluster) emits during a transition from a meta-stable higher energetic level (in a super-cooled melt or super-saturated vapour) to the stable condensed lower level (in a crystal or liquid). The radiation removes latent heat with photons of characteristic frequencies that are generated under this transition. This paper is the second in a set describing the appearance of PeTa radiation under air cooling with deposition and condensation of air components. The radiation was recorded using an IR Fourier Spectrometer with a highly sensitive MCT detector. Certain peculiarities of the recorded radiation as well as its applications in the physics of the atmospheres of Earth and Jupiter are analysed. 展开更多
关键词 PeTa EFFECT First Order Phase TRANSITIONS VAPOUR CONDENSATION VAPOUR Deposition Melt Crystallisation Infrared RADIATION Atmospheric Phenomena Igloo EFFECT JUPITER
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