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Radiation, electromagnetic resonance detection

Mossbauer resonance of Zn to study the influence of the gravitational field on electromagnetic radiation. A Ga ZnO source (4.2 K) was used at a distance of 1 m from an enriched ZnO absorber (4.2 K). A red shift of the photons by about 5% of the width of the resonance line was observed. The corresponding shift with Fe as Mossbauer isotope would be only 0.01%. The result is in accordance with Einstein s equivalence principle. Further gravitational red shift experiments using the 93.3 keV Mossbauer resonance of Zn were performed later employing a superconducting quantum interference device-based displacement sensor to detect the tiny Doppler motion of the source [66, 67]. [Pg.262]

Nuclear magnetic resonance spectroscopy is a technique that, based on the magnetic properties of nuclei, reveals information on the position of specific atoms within molecules. Other spectroscopic methods are based on the detection of fluorescence and phosphorescence (forms of light emission due to the selective excitation of atoms by previously absorbed electromagnetic radiation, rather than to the temperature of the emitter) to unveil information about the nature and the relative amount specific atoms in matter. [Pg.60]

Other spectral regions are also important because the detection and quantification of small concentrations of labile molecular, free radical, and atomic species of tropospheric interest both in laboratory studies and in ambient air are based on a variety of spectroscopic techniques that cover a wide range of the electromagnetic spectrum. For example, the relevant region for infrared spectroscopy of stable molecules is generally from 500 to 4000 cm-1 (20-2.5 /Am), whereas the detection of atoms and free radicals by resonance fluorescence employs radiation down to 121.6 nm, the Lyman a line of the H atom. [Pg.53]

When a nucleus is subjected to the right combination of magnetic field and electromagnetic radiation to flip its spin, it is said to be in resonance (Figure 13-3), and its absorption of energy is detected by the NMR spectrometer. This is the origin of the term nuclear magnetic resonance. ... [Pg.565]

The word spectroscopy is widely used to mean the separation, detection, and recording of energy changes (resonance peaks) involving nuclei, atoms, or molecules. These changes are due to the emission, absorption, or scattering of electromagnetic radiation or particles. Spectrometry is that branch of physical science that treats the measurement of spectra. [Pg.139]


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See also in sourсe #XX -- [ Pg.144 ]




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Electromagnet Electromagnetic radiation

Electromagnetic radiation

Radiation detection

Radiation resonance

Resonance Detection

Resonant detection

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