Band Model Parameters for the 2.7 Micrometer Bands of H2O and CO2 in the 100 to 3000 deg K Temperature Range

AbstractIn order to clarify the electrical properties of Cr-doped β-FeSi2(Fe1-xCrxSi2) and Mn-doped β--FeSi2(Fel-yMnySi2), the Hall effect and electrical resistivity of Fe1-xCrxSi2(0.01 ≦ x ≦ 0.05) and Fel-yMnySi2(0.01 ≦ y ≦ 0.10) have been measured in the temperature range between 80 and 300 K. fhe solid solutions Fel-xCrxSi2and Fel-yMnySi2are p-type over the measured temperature range. The observed features of RH of these solid solutions are explained by using the two-band model with the existence of two acceptor levels. The hole concentration of Fe1-xCrxSi2at 300 K ranges from 8.9×1018cm−3for x=0.01 to 1.1×1020cm−3for x=0.05, which is one order of magnitude higher than that of Fel-yMnySi2.

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Band Models for Radiative Transfer in Non-LTE Diatomic Molecules of CO2-N2 Plasmas

2010 14th International Heat Transfer Conference, Volume 5 ◽

10.1115/ihtc14-22301 ◽

2010 ◽

Cited By ~ 2

Author(s):

Se´bastien Depraz ◽

Philippe Rivie`re ◽

Marie-Yvonne Perrin ◽

Anouar Soufiani

Keyword(s):

Least Square ◽

Radiative Properties ◽

Model Parameters ◽

Band Model ◽

Electronic Systems ◽

General Description ◽

Line Profiles ◽

Equilibrium Conditions ◽

Thermodynamic State ◽

Narrow Band Model

A statistical narrow-band model is developed for the optically non-thin electronic systems of carbonaceous molecules in CO2-N2 plasmas and its accuracy is studied under equilibrium and non-equilibrium conditions. Line by line calculations are used to produce curves of growth of transmissivities from which band model parameters are calculated by least-square adjustments. The model is shown to provide quite accurate description of radiative properties and radiative intensities for Doppler, Lorentz, and Voigt line profiles, and for both local thermodynamic equilibrium and a multi-temperature description of the gas mixture thermodynamic state. The model is also suitable for a more general description of the gas thermodynamic state where the electronic state populations are arbitrary.

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THE NORMAL STATE HALL EFFECT IN NdBa2-xLaxCu3O7-δ: EVIDENCE FOR HOLE LOCALIZATION BY LA DOPING

International Journal of Modern Physics B ◽

10.1142/s0217979209052315 ◽

2009 ◽

Vol 23 (31) ◽

pp. 5779-5788

Author(s):

S. R. GHORBANI ◽

F. ABRINAEY

Keyword(s):

Critical Temperature ◽

Hall Effect ◽

Hall Coefficient ◽

Normal State ◽

Doping Concentration ◽

Narrow Band ◽

Band Model ◽

Measured Temperature ◽

Temperature Range ◽

La Doping

The transport properties of sintered samples of NdBa 2-x La x Cu 3 O 7-δ with 0 ≤ x ≤ 0.3 have been studied in the normal state by Hall effect measurements. The Hall coefficient, RH is positive in the normal state and increases with increasing La doping concentration over the whole temperature range from the critical temperature, Tc, up to room temperature. The results for the Hall coefficient as a function of temperature and doping concentration were analyzed within the phenomenological narrow band and Anderson models. A good agreement between models and data was obtained. As in the phenomenological narrow band model, the band widths increase with increasing doping concentration. As in the Anderson model, the Hall angle is proportional to T2 over the whole measured temperature range for all samples. The obtained results for both models supported the view that La doping introduces electronic disorder into the CuO 2 planes. The tendency towards localization is driven by electronic disorder. In addition to hole filling, the localization is another reason for the decreasing superconducting critical temperature in these samples.

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