Pureley nuclear diffraction of resonant gamma-rays due to hyperfine quadrupole interaction

Mirzababaev, R.M.; Смирнов, Г. В.; Sklyarevskii, V.V.; Artem'ev, A. N.; Izrailenko, A. N.; Babkov, A.V.

doi:10.1016/0375-9601(71)90625-6

Cited by 28 publications

(3 citation statements)

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“…Recent work describing the theory and application of Mossbauer polarimeters has been described by Mitin and Chugunova (1975), Barb andRogalski (1976, 1977) and Henry and Varret (1977).…”

Section: The Nuclear Resonant Refractive Indexmentioning

confidence: 99%

The scattering of Mossbauer radiation by condensed matter

Champeney

1979

Rep. Prog. Phys.

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Experimental and theoretical work on the scattering of Mossbauer y radiation by condensed matter is reviewed, covering the period from 1958, and the subject is presented as having features akin to those of x-ray diffraction, inelastic neutron scattering and Mossbauer absorption spectroscopy. An outline of theoretical work on coherence and recoil effects for both electronic and nuclear resonant scattering is given. This is followed by a review of experiments on electronic (Rayleigh) scattering covering thermal diffuse scattering in crystals, Debye-Waller factors, soft modes and critical scattering, diffusion phenomena and amorphous materials, and plastic and liquid crystals, and a review of experiments on nuclear resonant scattering covering coherence interference and diffraction, the crystallographic phase problem, magnetic and quadrupole Mossbauer diffraction, dynamic theory and multiple scattering, cooperative excitation, refractive index, time domain experiments, and experiments based on detection of the conversion electrons.

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“…Recent work describing the theory and application of Mossbauer polarimeters has been described by Mitin and Chugunova (1975), Barb andRogalski (1976, 1977) and Henry and Varret (1977).…”

Section: The Nuclear Resonant Refractive Indexmentioning

confidence: 99%

The scattering of Mossbauer radiation by condensed matter

Champeney

1979

Rep. Prog. Phys.

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“…This method is operational in any bunch mode of SR, which leads to a dramatic increase in the available SR beam time. The principle is based on the nuclear Bragg reflection under the electrically forbidden condition of a single-crystal, which is due to the polarization dependence of nuclear resonance scattering in the presence of a hyperfine interaction (Trammell, 1961;Belyakov & Aivazyan, 1968Smirnov et al, 1969;Mirzababaev et al, 1971). The so-called pure nuclear Bragg reflection from a 57 Fe-enriched crystal achieves an extremely high suppression of electronic scattering and filters 57 Fe-Mö ssbauer radiation from the SR source.…”

Section: Introductionmentioning

confidence: 99%

⁵⁷Fe polarization-dependent synchrotron Mössbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

Mitsui

Imai

Masuda

et al. 2015

J Synchrotron Radiat

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Energy-domain (57)Fe polarization-dependent synchrotron radiation Mössbauer spectroscopy was developed by using a diamond X-ray phase plate and an iron borate nuclear Bragg monochromator. The former controls the polarization of the incident synchrotron radiation X-rays and the latter filters the (57)Fe-Mössbauer radiation with a narrow bandwidth of ∼3.4 Γ0 (Γ0 ≃ 4.7 neV: natural linewidth of the (57)Fe nucleus) from the broadband synchrotron radiation. The developed nuclear diffraction optics allowed (57)Fe-Mössbauer studies to be performed with various polarization states, i.e. linear polarization, circular polarization and non-polarization. In this paper, the spectrometer system, beam characterization, performance-test experiments and a grazing-incidence Mössbauer measurement of an isotope-enriched ((57)Fe: 95%) iron thin film are described.

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“…1) The best method of generating a high-quality UHMX beam is to use nuclear Bragg reflection under the electrically forbidden condition of a single crystal, the so-called pure nuclear Bragg reflection. Although the beam property and its quality are closely related to the hyperfine interaction and the degree of perfection of the crystal, [2][3][4][5][6] a particular case of a pure nuclear Bragg reflection from an antiferromagnetic single crystal in the vicinity of the Ne ´el temperature enables the generation of the single-line UHMX required for energydomain SR Mo ¨ssbauer spectroscopy. This key phenomenon was discovered by Smirnov et al, 7) who showed experimentally that a pure nuclear Bragg reflection of the 57 FeBO 3 single crystal heated to the Ne ´el temperature in an external magnetic field could yield single-line 14.4 keV diffracted -radiation with an extremely narrow energy bandwidth of neV order.…”

Section: Introductionmentioning

confidence: 99%

Generation and Application of Ultrahigh Monochromatic X-ray Using High-Quality ⁵⁷FeBO₃ Single Crystal

Mitsui

Seto

Kikuta

et al. 2007

jjap

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A new Micro Electro Mechanical System (MEMS) microstrip package using two high resistivity silicon (HRS) substrates without metal shielding is fabricated for microwave device packaging. The simple package is manufactured using common silicon MEMS technology and the de-embedding measurement shows the small insertion loss (0.3 dB) below 20 GHz and no package resonance. This package also allows the wafer-level chip-scale packaging and is suitable for low cost packaging of various microwave devices.

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Pureley nuclear diffraction of resonant gamma-rays due to hyperfine quadrupole interaction

Cited by 28 publications

References 1 publication

The scattering of Mossbauer radiation by condensed matter

The scattering of Mossbauer radiation by condensed matter

⁵⁷Fe polarization-dependent synchrotron Mössbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

Generation and Application of Ultrahigh Monochromatic X-ray Using High-Quality ⁵⁷FeBO₃ Single Crystal

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Pureley nuclear diffraction of resonant gamma-rays due to hyperfine quadrupole interaction

Cited by 28 publications

References 1 publication

The scattering of Mossbauer radiation by condensed matter

The scattering of Mossbauer radiation by condensed matter

57Fe polarization-dependent synchrotron Mössbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

Generation and Application of Ultrahigh Monochromatic X-ray Using High-Quality 57FeBO3 Single Crystal

Contact Info

Product

Resources

About

⁵⁷Fe polarization-dependent synchrotron Mössbauer spectroscopy using a diamond phase plate and an iron borate nuclear Bragg monochromator

Generation and Application of Ultrahigh Monochromatic X-ray Using High-Quality ⁵⁷FeBO₃ Single Crystal