A Unified Model of Vibraluminescence and Thermal Emission

A Unified Model of Vibraluminescence and Thermal Emission PDF Author: D. H. Archer
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ISBN:
Category :
Languages : en
Pages : 132

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This report develops a model for determining factors, called delta factors which, when multiplied by the Boltzmann populations for vibrational states of selected molecules, gives the actual state populations under conditions, where excitation and deexcitation occur by a combination of V-T collisions, V-V collisions, and a radiation field. Specifically included is the excitation of states of infrared (IR)-active molecules by V-V transfer from any excess population of N2(v=1) and/or O2(v=1) molecules with subsequent emission of radiation called vibraluminescence. The radiation rate from a state of an Infrared-active molecule, including thermal emission, vibraluminescence, photon scatter, and effects due to collision limiting, are then obtained by multiplying the thermal equilibrium emission rate from the state by the associated delta factor. With inclusion of vibrational coupling among states N2, O2, H2O, and CO2 (including 3 minor isotopes), analytical expressions are developed to describe the time dependence of the delta factors following an initial enhancement of the N2(v=1) and O2(v=1) populations by an atmospheric disturbance. Vibrational coupling between N2(1), O2(1) and states of CO, NO, and NO(+) is also considered. The model provides delta factors that permit the calculation of the non equilibrium volume emission rate (thermal + vibraluminescence + photon scatter) from 53 bands of the above species spanning the wavelength region from about 1.4 to 15 micrometers.

A Unified Model of Vibraluminescence and Thermal Emission

A Unified Model of Vibraluminescence and Thermal Emission PDF Author: D. H. Archer
Publisher:
ISBN:
Category :
Languages : en
Pages : 132

Get Book Here

Book Description
This report develops a model for determining factors, called delta factors which, when multiplied by the Boltzmann populations for vibrational states of selected molecules, gives the actual state populations under conditions, where excitation and deexcitation occur by a combination of V-T collisions, V-V collisions, and a radiation field. Specifically included is the excitation of states of infrared (IR)-active molecules by V-V transfer from any excess population of N2(v=1) and/or O2(v=1) molecules with subsequent emission of radiation called vibraluminescence. The radiation rate from a state of an Infrared-active molecule, including thermal emission, vibraluminescence, photon scatter, and effects due to collision limiting, are then obtained by multiplying the thermal equilibrium emission rate from the state by the associated delta factor. With inclusion of vibrational coupling among states N2, O2, H2O, and CO2 (including 3 minor isotopes), analytical expressions are developed to describe the time dependence of the delta factors following an initial enhancement of the N2(v=1) and O2(v=1) populations by an atmospheric disturbance. Vibrational coupling between N2(1), O2(1) and states of CO, NO, and NO(+) is also considered. The model provides delta factors that permit the calculation of the non equilibrium volume emission rate (thermal + vibraluminescence + photon scatter) from 53 bands of the above species spanning the wavelength region from about 1.4 to 15 micrometers.

Technical Reports Awareness Circular : TRAC.

Technical Reports Awareness Circular : TRAC. PDF Author:
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ISBN:
Category : Science
Languages : en
Pages : 766

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Government reports annual index

Government reports annual index PDF Author:
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Category :
Languages : en
Pages : 1054

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Government Reports Annual Index: Keyword A-L

Government Reports Annual Index: Keyword A-L PDF Author:
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Category : Government reports announcements & index
Languages : en
Pages : 1060

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Government Reports Announcements & Index

Government Reports Announcements & Index PDF Author:
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Category : Science
Languages : en
Pages : 1170

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Science Abstracts

Science Abstracts PDF Author:
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Category : Physics
Languages : en
Pages : 682

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