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Emission of a photon

Bolir fiirther postidated that quantum jumps between the different allowed energy levels are always accompanied by absorption or emission of a photon, as required by energy conservation, viz. [Pg.3]

The acronym LASER (Light Amplification via tire Stimulated Emission of Radiation) defines the process of amplification. For all intents and purjDoses tliis metliod was elegantly outlined by Einstein in 1917 [H] wherein he derived a treatment of the dynamic equilibrium of a material in a electromagnetic field absorbing and emitting photons. Key here is tire insight tliat, in addition to absorjDtion and spontaneous emission processes, in an excited system one can stimulate tire emission of a photon by interaction witli tire electromagnetic field. It is tliis stimulated emission process which lays tire conceptual foundation of tire laser. [Pg.2857]

Simplified energy level diagram showing emission of a photon. [Pg.374]

Emission of a photon when the analyte returns to a lower-energy state with the same spin as the higher-energy state. [Pg.423]

There are two processes where nuclear and atomic contributions are iaterrelated. These are the emission of electrons from the atomic shells as an alternative to the emission of a photon and the emission of bremsstrahlung photons ia the P decay process. [Pg.453]

The processes of charge injection, transport, and recombination dictate the recombination efficiency h(/), which is the fraction of injected electrons that recombine to give an exciton. The recombination efficiency, which is a function of the device current, plays a primaty role in determining the amount of emitted light, therefore determining the OLED figurcs-of-meril. For example, the quantum efficiency /y(/) (fraction of injected electrons that results in the emission of a photon from the device) is, to a first approximation, given by ... [Pg.540]

The stochastic theory of lineshape has been developed by Anderson and Weiss [157], by Kubo [158], and by Kubo and Tomita [159] in order to treat the narrowing of spectral lines by exchange or motion, a generalized formulation having been subsequently presented by Blume [31]. We consider below an application of the theory of Blume to the specific problem of relaxation between LS and HS states in Mossbauer spectra of powder materials which is based on the formulation by Blume and Tjon [32, 33], Accordingly, the probability of emission of a photon of wave vector Ik and frequency m is given as [160] ... [Pg.109]

Figure 5.6 Fluorescence. Absorption of incident radiation from an external source causes excitation of the analyte to state 1 or 2. Excited species can dissipate the excess energy by emission of a photon or by radiationless processes (dashed lines). The frequencies emitted correspond to the energy differences between levels... Figure 5.6 Fluorescence. Absorption of incident radiation from an external source causes excitation of the analyte to state 1 or 2. Excited species can dissipate the excess energy by emission of a photon or by radiationless processes (dashed lines). The frequencies emitted correspond to the energy differences between levels...
Image plates use stimulated luminescence from storage phosphor materials. The commercially available plates are composed of extremely fine crystals of BaFBrEu2+. X-rays excite an electron of Eu2+ into the conduction band, where it is trapped in an F-center of the barium halide with a subsequent oxidation of Eu2+ to Eu3+. By exposing the BaFBrEu" complex to light from a HeNe laser the electrons are liberated with the emission of a photon at 390 nm [38]. [Pg.74]

Fluorescence is a process that occurs after excitation of a molecule with light. It involves transitions of the outermost electrons between different electronic states of the molecule, resulting in emission of a photon of lower energy than the previously absorbed photon. This is represented in the Jablonski diagram (see Fig. 6.1). As every molecule has different energy levels, the fluorescent properties vary from one fluorophore to the other. The main characteristics of a fluorescent dye are absorption and emission wavelengths, extinction... [Pg.238]

In the past years, chemiluminescence (CL) analysis of inorganic compounds has been extensively developed in both gas and liquid phases. These methods typically rely on the oxidation or reduction of a chemically reactive agent and the subsequent emission of a photon from an electronically excited-state intermediate. [Pg.124]

Re-emission of a photon in the reversal of the excitation step photodissociation is unimportant. [Pg.164]

See other pages where Emission of a photon is mentioned: [Pg.249]    [Pg.1151]    [Pg.2857]    [Pg.436]    [Pg.373]    [Pg.423]    [Pg.424]    [Pg.426]    [Pg.772]    [Pg.776]    [Pg.123]    [Pg.123]    [Pg.125]    [Pg.348]    [Pg.153]    [Pg.332]    [Pg.187]    [Pg.110]    [Pg.12]    [Pg.68]    [Pg.20]    [Pg.42]    [Pg.53]    [Pg.74]    [Pg.120]    [Pg.44]    [Pg.117]    [Pg.45]    [Pg.281]    [Pg.179]    [Pg.456]    [Pg.482]    [Pg.417]    [Pg.542]    [Pg.12]    [Pg.71]    [Pg.38]    [Pg.37]   


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Photon emission

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