Fundamentals of Chemical Laser Kinetics

Basov, N.G.; Bashkin, A S; Igoshin, Valerii I; Oraevsky, Anatolii N; Shcheglov, V. A.

doi:10.1007/978-3-642-70961-6_2

Cited by 2 publications

(2 citation statements)

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“…The measured O2(L) yield existing sparger reactors operating in the ton pressure range is near 5Ø% (34)• The losses that contribute to this yield are; (1) liquid phase losses (about 0.04 yield points), (2) O2(') pooling loss in the gas "bubble" (about 0.36 yield points), (3) generator wall quenching losses (about 0.03 yield points), and (4) duct transport loss (about 0.06 yield points). Dimole emission losses are negligible because of the weakness of the transition [10 to i05 times lower than O2() pooling].…”

Section: Major Coil Loss Mechanismmentioning

confidence: 93%

<title>History of chemical oxygen-iodine laser (COIL) development in the USA</title>

Truesdell¹,

Helms²,

Hager³

1994

SPIE Proceedings

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Section: Major Coil Loss Mechanismmentioning

confidence: 93%

<title>History of chemical oxygen-iodine laser (COIL) development in the USA</title>

Truesdell¹,

Helms²,

Hager³

1994

SPIE Proceedings

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“…Theory of any vibrational -rotational state expressed in its wave number equivalent and measured in cm-1 units, can be written to a good approximation as [11]:…”

Section: Theorymentioning

confidence: 99%

Determination and Study the Energy Characteristics of Vibrational-Rotational Levels and Spectral Lines of GaF, GaCl, GaBr and GaI for Ground State

Ayaash

2015

ILCPA

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A theoretical study of four gallium monohalides molecules (GaF, GaCl, GaBr and GaI) of ground state 1 ∑ + by using computer model is presented to study the energy characteristics of vibrational-rotational levels as a function of the vibrational and rotational quantum number , respectively. The calculations has been performed to examine the vibrational-rotational characteristics of some gallium halides molecules. These calculations appeared that all energies (G v , E v,J , and F v,J ) increase with increasing vibrational and rotational quantum number and by increasing the vibrational quantum number, and by increasing the vibrational quantum number, the vibrational constant will decrease. Also theoretical study of spectra of these molecules for ground state 1 ∑ + has been carried out. The values of spectral lines R(J) and P(J) were calculated and the relationship between the spectral lines and the rotational quantum number was established. The results appeared the spectra line values R(J) increases when the values of rotational quantum number decrease but the spectra line values P(J) decrease when the values of rotational quantum number increase, also the spectra line values P(J) decrease when the values of (m) increase, while the values of R(J) increase at first, then decrease showing Fortrar parabola.

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Fundamentals of Chemical Laser Kinetics

Cited by 2 publications

References 0 publications

<title>History of chemical oxygen-iodine laser (COIL) development in the USA</title>

<title>History of chemical oxygen-iodine laser (COIL) development in the USA</title>

Determination and Study the Energy Characteristics of Vibrational-Rotational Levels and Spectral Lines of GaF, GaCl, GaBr and GaI for Ground State

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