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The spectral characteristics of all-trans .

The spectral characteristics of p-carotene in an acetonitrile-based HPLC solvent 75

The spectral data arrangement and the measured property in matrix arrangement.

The spectral data from

The spectral density A of the autoionizing state vs v2.

The spectral density Cs simulation with lactate and NAD bound and the

The spectral density for the hydride in the reactant well for both wild type HLADH, and one in which we mutate Phe93 — Trp.

The spectral density for the hydride in the reactant well for both wild type HLADH, and one in which we mutate Val203 — Ala. The smaller size of the alanine results in a much smaller effective force on the reaction coordinate.

The spectral density function J profiles

The spectral density function versus the frequency that corresponds to the fluorescence maximum in various solvents for coumarin 311. The points for each wavelength correspond to different solvents. Reprinted from Ref. 31 with permission, from J. Chem. Phys. 88, 2372 . Copyright 1988, American Physical Society.

The spectral density of heat radiation r versus the wavelength h the correspondence of the theory and experiment in the framework of Planck theory.

The spectral density of the f hole as a function of temperature . The temperature causes a broadening of the line and a shift of the peak. The unit of temperature is unimportant, because all curves are similar under a suitable change of energy scale.

The spectral density of the hydride in the reactant well, product well, and at a point of minimal coupling for HtADH.

The spectral dependence of the laser output power of Ar and Kr lasers.

The spectral dependence of the polar Kerr rotation for GdTb—Fe and for a series of Co Pt multilayers with 0.36 nm and with A,

The spectral dependence of the Poynting vector of thermal radiation from the CNT in the point r 100 L, 9 2for .

The spectral dependence of the specific detectivity for several photoconduction detectors. The values corresponding to a typical thermopile and to a typical piroelectric detector are also shown.

The spectral dependence of the xerographic gain for positive and negative surface potentials.

The spectral dependence of the xerographic gain of a mixture of , bisphenol-A polycarbonate, and a triarylmethane donor TPM before and after aggregation by fuming with dichloromethane.

The spectral dependence of the xerographic gain of a series of organic photoreceptors.

The spectral dependence of the xerographic gain of a-Si with different thicknesses.

The spectral dependence of the xerographic sensitivity of the nonaggregated homogeneous dye-polymer film, the aggregated film, and the aggregated and sensitized film. The sensitivity is the reciprocal of the energy required for a photodischarge from 500 to 250 V.

The spectral dependence of TL for highly oxidized PS

The spectral dependencies of the photogeneration efficiencies for dual-layer photoreceptors prepared with generation layers of C q and C q. The transport layer contained the triarylamine derivative TPD doped into PS.

The spectral dependencies of the photogeneration efficiencies of a dual-layer photoreceptor containing AZO-TPA. The transport layer contained the triarylamine derivative MAPS.



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