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Spectroscopy electron resonance

Multiple Electron Resonance Spectroscopy ed M M Doric and J H Freed (New York Plenum) ch 14, pp 475-507... [Pg.1588]

Laser Stark (or laser electronic resonance) spectroscopy... [Pg.368]

Dorio, M. M., Freed, J. H., eds. Multiple Electron Resonance Spectroscopy. New York Plenum Press (1979)... [Pg.113]

Kennedy, T. A. (1981). In Nuclear and Electron Resonance Spectroscopies Applied to Materials Science (E. N. Kaufmann and G. K. Shenoy, eds.), Materials Research Society Pioc., Vol. 3, p. 95. North-Holland, New York. [Pg.69]

T. M. Duncan and R. W. Vaughan, Nuclear and Electron Resonance Spectroscopies applied to Materials Science , Elsevier North-Holland, Amsterdam, 1981, p. 259. [Pg.100]

Biegelsen, D. K. (1981) in Nuclear and Electron Resonance Spectroscopies Applied to Material Science, eds Kaufinann and Shenoy (North Holland, Amsterdam). Biegelsen, D. K., Street, R. A., and Jackson, W. B. (1983) Physica B, 117B 118B, 899. [Pg.404]

Electron-resonance spectroscopy was used for identifying the radical obtained on x-irradiation "" and 7-irradiation of crystalline glycolic acid. The evidence supports the structure H0CHC02H for the trapped radical, with only very slight indications of the presence of another radical. One possible step in the formation of the (carboxyhydroxymethyl) radical is as follows. [Pg.32]

Electron resonance spectroscopy has been used also in the investigation of vinyl polymerization in the solid phase. Thus Bamford et have studied the... [Pg.311]

Frequently, femtosecond pulses are used in such electronically resonant spectroscopy. Such pulses usually have near-transform limited bandwidths and can spectrally embrace a fair range of vibrational coherences. Thus, even when a single central colour is chosen to define the femtosecond exciting pulse, actually a broad band of colours is available to provide a range for both co j and C02- Instead of preparing single well-defined vibrational coherences using sharply... [Pg.1202]

Kim NK, Bowman MK, DeRose VJ (2010) Precise mapping of RNA tertiary structure via nanometer distance measurements with double electron-electron resonance spectroscopy. J Am Chem Soc 132(26) 8882-8884. doi 10.1021/Jal01317g... [Pg.198]

Volume 11/19 brings the spectroscopic data on diamagnetic and paramagnetic molecules as well as on molecular ions up to date considering the publications up to and partly including 1990. The spectroscopic information collected in this volume has been obtained principally from gas phase microwave measurements. In addition, gas phase data have been included derived from methods related to microwave spectroscopy by employing a coherent radiation source. These are molecular beam techniques, radio frequency spectroscopy, electron resonance spectroscopy, laser spectroscopy, and double resonance techniques. Some other methods are considered if the accuracy of the derived molecular parameters is comparable to that of micro-wave spectroscopy and no microwave data are available. Examples would be Fourier infirared spectroscopy or electric deflection method. [Pg.1]


See other pages where Spectroscopy electron resonance is mentioned: [Pg.434]    [Pg.113]    [Pg.118]    [Pg.118]    [Pg.267]    [Pg.23]    [Pg.192]    [Pg.76]    [Pg.287]    [Pg.147]    [Pg.147]    [Pg.116]    [Pg.578]    [Pg.113]    [Pg.118]    [Pg.118]   
See also in sourсe #XX -- [ Pg.176 ]

See also in sourсe #XX -- [ Pg.176 ]




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Chemical testing electron spin resonance spectroscopy

Complexation electron spin resonance spectroscopy

ELECTRON PARAMAGNETIC RESONANCE SPECTROSCOPY AND HEMICALLY INDUCED DYNAMIC NUCLEAR POLARIZATION

Electrochemical electron spin resonance spectroscopy

Electron (continued spin resonance spectroscopy

Electron Paramagnetic (Spin) Resonance Spectroscopy

Electron Paramagnetic Resonance Spectroscopy and Forward Recoil Spectrometry

Electron Paramagnetic Resonance spectroscopy, lanthanide ions

Electron Spin Resonance Spectroscopy, Application of to Photochemistry (Wan)

Electron magnetic resonance spectroscopy

Electron nuclear double resonance ENDOR) spectroscopy study

Electron nuclear double resonance spectroscopy

Electron nuclear double resonance spectroscopy allowed transitions

Electron nuclear double resonance spectroscopy centers

Electron nuclear double resonance spectroscopy coupling constants

Electron nuclear double resonance spectroscopy envelope modulation

Electron nuclear double resonance spectroscopy hyperfine coupling

Electron nuclear double resonance spectroscopy instrumentation

Electron nuclear double resonance spectroscopy ligand coordination

Electron nuclear double resonance spectroscopy pulsed experiments

Electron nuclear double resonance spectroscopy resolution

Electron nuclear double resonance spectroscopy sensitivity

Electron nuclear double resonance spectroscopy spectral resolution

Electron nuclear double resonance spectroscopy spin-coupled systems

Electron nuclear resonance ENDOR) spectroscopy

Electron paramagnetic resonance EPR) spectroscopy

Electron paramagnetic resonance spectroscopy

Electron paramagnetic resonance spectroscopy electronic structure

Electron paramagnetic resonance spectroscopy hyperfine splittings

Electron paramagnetic resonance spectroscopy nitrogenase

Electron paramagnetic resonance spectroscopy probes

Electron paramagnetic resonance spectroscopy sensitivity

Electron paramagnetic resonance spectroscopy site-directed

Electron paramagnetic resonance spectroscopy spectrum

Electron paramagnetic resonance spectroscopy spin interactions

Electron paramagnetic resonance spectroscopy spin labels

Electron paramagnetic resonance spectroscopy stable free radicals

Electron paramagnetic resonance spectroscopy studies

Electron paramagnetic resonance spectroscopy transition metal complexes

Electron paramagnetic resonance spectroscopy, detection

Electron paramagnetic resonance spectroscopy, rapid-freeze

Electron proton resonance spectroscopy

Electron resonance spectroscopy components

Electron spin resonance spectroscopy adsorbed metals

Electron spin resonance spectroscopy analytical applications

Electron spin resonance spectroscopy applications

Electron spin resonance spectroscopy basic principles

Electron spin resonance spectroscopy cations

Electron spin resonance spectroscopy definition

Electron spin resonance spectroscopy derivatives

Electron spin resonance spectroscopy frequencies

Electron spin resonance spectroscopy fundamentals

Electron spin resonance spectroscopy history

Electron spin resonance spectroscopy limitations

Electron spin resonance spectroscopy metal studies

Electron spin resonance spectroscopy nuclear hyperfine interaction

Electron spin resonance spectroscopy power

Electron spin resonance spectroscopy saturation

Electron spin resonance spectroscopy sensitivity

Electron spin resonance spectroscopy theoretical aspects

Electron spin resonance spectroscopy, ESR

Electron spin resonance spectroscopy, and

Electron spin resonance spectroscopy, iron

Electron spin resonance surface spectroscopy

Electron-nuclear double resonance spectroscopy, ENDOR

Electronic paramagnetic resonance spectroscopy

Iron complexes electron spin resonance spectroscopy

Kinetics electron spin resonance spectroscopy

Magnetic spectroscopy electron spin resonance

Other Spectroscopies UV-visible, Electron Spin Resonance

Oxidative stability electron spin resonance spectroscopy

Resonance Raman spectroscopy electronic band assignments

Spectroscopy electron spin resonance

Time-resolved electron paramagnetic resonance spectroscopy

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