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Experimental spin density in the first purely organic ferromagnet: the β para-nitrophenyl nitronyl nitroxide

Zheludev, A. ; Bonnet, M. ; Ressouche, E. ; [et al.]

Amsterdam : Elsevier

Journal of Magnetism and Magnetic Materials 135 (1994), S. 147-160

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ISSN: 0304-8853

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0304-8853(94)90341-7

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Neutron diffraction observation of a ferromagnetic phase transition in a purely organic crystal

Zheludev, A. ; Ressouche, E. ; Schweizer, J. ; [et al.]

Amsterdam : Elsevier

Solid State Communications 90 (1994), S. 233-235

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ISSN: 0038-1098

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0038-1098(94)90466-9

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The inverse Fourier problem in the case of poor resolution in one given direction: the maximum-entropy solution (1995)

Papoular, R. J. ; Zheludev, A. ; Ressouche, E. ; [et al.]

[S.l.] : International Union of Crystallography (IUCr)

Acta crystallographica 51 (1995), S. 295-300

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ISSN: 1600-5724

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Chemistry and Pharmacology , Geosciences , Physics

Notes: When density distributions in crystals are reconstructed from three-dimensional diffraction data, a problem sometimes occurs when the spatial resolution in one given direction is very small compared to that in perpendicular directions. In this case, a two-dimensional projected density is usually reconstructed. For this task, the conventional Fourier inversion method only makes use of those structure factors measured in the projection plane. All the other structure factors contribute zero to the reconstruction of a projected density. On the contrary, the maximum-entropy method uses all the three-dimensional data, to yield three-dimensional-enhanced two-dimensional projected density maps. It is even possible to reconstruct a projection in the extreme case when not one structure factor in the plane of projection is known. In the case of poor resolution along one given direction, a Fourier inversion reconstruction gives very low quality three-dimensional densities `smeared' in the third dimension. The application of the maximum-entropy procedure reduces the smearing significantly and reasonably well resolved projections along most directions can now be obtained from the MaxEnt three-dimensional density. To illustrate these two ideas, particular examples based on real polarized neutron diffraction data sets are presented.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S0108767394009645

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A non-uniform reference model for maximum-entropy density reconstructions from diffraction data (1995)

Zheludev, A. ; Papoular, R. J. ; Ressouche, E. ; [et al.]

[S.l.] : International Union of Crystallography (IUCr)

Acta crystallographica 51 (1995), S. 450-455

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ISSN: 1600-5724

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Chemistry and Pharmacology , Geosciences , Physics

Notes: Diffraction experiments provide information on the Fourier components of microscopic density distributions in crystals. To obtain the spatial densities themselves, an inverse Fourier problem has to be solved. The procedure is complicated by the presence of noise and incompleteness of the data. The application of the maximum-entropy (MaxEnt) principle was a breakthrough in density reconstruction, allowing high-quality density maps to-be obtained without involving any a priori information concerning what the reconstructed density should look like. In this work, a procedure is proposed that incorporates a priori (e.g. theoretical) information into MaxEnt reconstructions of spin density distributions. It allows, on the one hand, the evaluation of the existing density models and, on the other, the precise investigation of what new information the experiment brings. Unlike traditional parameter-refinement techniques, the new method does not impose any strict constraints on the density to be reconstructed and is thus much more flexible. At the same time, it suppresses artifacts and yields high-quality density maps. The advantages of the new methods are illustrated by an example of spin density reconstruction based on real polarized neutron diffraction data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S0108767394010883

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Influence of atomic order on [110] phonon softening [4] and displacive phase transition in Invar alloys (1999)

Kästner, J. ; Petry, W. ; Shapiro, S.M. ; [et al.]

Springer

The European physical journal 10 (1999), S. 641-648

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ISSN: 1434-6036

Keywords: PACS. 63.20.Dj Phonon states and bands, normal modes, and phonon dispersion - 64.70.Kb Solid-solid transitions - 65.40.+g Heat capacities of solids

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract: The acoustic phonon dispersions of two Invar crystals , one ordered with the ( ) structure, the other disordered fcc, have been investigated between 3.4 K and 470 K by inelastic and elastic neutron scattering. For the ordered crystal, pronounced softening of the whole phonon branch is observed on cooling below the Curie temperature. Particularly strong phonon softening at the M-point zone boundary of the structure leads to a displacive, antiferrodistortive phase transition at low temperatures. For the disordered crystal, much weaker softening of the phonons is observed and restricted to the region near the Brillouin zone center, where increasing elastic scattering with decreasing temperature indicates the growth of local tetragonal strain. This strain is considered as a typical precursor of the transformation to bct martensite. Specific heat measurements, performed at low temperatures on both crystals confirm the neutron scattering results and reveal considerable enhancement of the low energy phonon density of states in the ordered crystal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100510050896

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