Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Nuclear resonance scattering

Leupold et al. were the first to report on coherent nuclear resonant scattering of synchrotron radiation from the 67.41 keV level of Ni. The time evolution of the forward scattering was recorded by employing the so-called nuclear lighthouse... [Pg.251]

Ta foil First successful observation of nuclear resonance scattering of synchrotron radiation (NRS) with Ta... [Pg.301]

Nuclear Resonance Scattering Using Synchrotron Radiation (Mossbauer Spectroscopy in the Time Domain)... [Pg.477]

Nuclear Resonance Scattering Using Synchrotron Radiation... [Pg.478]

Some of the basic features of nuclear resonance scattering using synchrotron radiation (NFS and NIS) and of conventional MS are compared in Table 9.1. [Pg.478]

Fig. 9.1 Schematic representation of the experimental arrangement for nuclear resonant scattering, both for NIS and NFS... Fig. 9.1 Schematic representation of the experimental arrangement for nuclear resonant scattering, both for NIS and NFS...
The work of Wortmann et al. [65-67], Gavriliuk et al. [68, 69] and Sturhahn et al. [70] convincingly demonstrates the power of nuclear resonant scattering experiments with synchrotron radiation for high-pressure smdies of magnetism and lattice dynamics. An illustrative example was presented at the Fifth Seeheim Workshop by Wortmann [65] Fig. 9.28a shows NFS spectra of LuFe2 at 295 and... [Pg.509]

Fig. 9.34 Monitoring of inelastic excitations by nuclear resonant scattering. The sidebands of the excitation probability densities for phonon creation, S(E), and for annihilation, S —E), are related by the Boltzmann factor, i.e., S(—E) = S E) tTvp —Elk T). This imbalance, known as detailed balance, is an intrinsic feature of each NIS spectrum and allows the determination of the temperature T at which the spectrum was recorded... Fig. 9.34 Monitoring of inelastic excitations by nuclear resonant scattering. The sidebands of the excitation probability densities for phonon creation, S(E), and for annihilation, S —E), are related by the Boltzmann factor, i.e., S(—E) = S E) tTvp —Elk T). This imbalance, known as detailed balance, is an intrinsic feature of each NIS spectrum and allows the determination of the temperature T at which the spectrum was recorded...
Nuclear Resonance Scattering with Isotopes Other Than Fe... [Pg.534]

Potential Mossbauer isotopes for nuclear resonance scattering, which are within the spectral reach of synchrotron radiation sources, are summarized in Table 9.5 [118-120], and the synchrotron radiation sources which provide dedicated beam lines for specific Mossbauer isotopes are listed in Table 9.6 (adopted from [85]). [Pg.534]

Table 9.5 Potential Mossbauer isotopes for nuclear resonance scattering, which are within the spectral reach of currently available synchrotron radiation sources... Table 9.5 Potential Mossbauer isotopes for nuclear resonance scattering, which are within the spectral reach of currently available synchrotron radiation sources...
Griinsteudel H (1998) Nuclear Resonant Scattering of Synchrotron Radiation on Iron Containing Biomimetic Compounds. PhD Thesis, Shaker, Liibeck... [Pg.180]

See other pages where Nuclear resonance scattering is mentioned: [Pg.310]    [Pg.508]    [Pg.534]    [Pg.575]   
See also in sourсe #XX -- [ Pg.477 ]

See also in sourсe #XX -- [ Pg.353 , Pg.455 ]



SEARCH



Nuclear resonant scattering

Resonance scattering

Resonant scattering

Scattering nuclear

© 2024 chempedia.info