Neutron Scattering for Materials Science: Volume 166S. M. Shapiro, S. C. Moss, J. D. Jorgensen The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners. |
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Page 405
... distribution cuts off at twice its mean value and so the contribution to the scattering intensity from any wave numbers in the density distribution above 0.057 A - 1 are absent from the calculation . The Schultz distribution has the ...
... distribution cuts off at twice its mean value and so the contribution to the scattering intensity from any wave numbers in the density distribution above 0.057 A - 1 are absent from the calculation . The Schultz distribution has the ...
Page 452
... distribution , where Fp ( ) d is the probability of a pore chord having a value between 1 and 1 + d , and F ( 1 ) dl is the corresponding probability for a solid chord . With the two - chord distribution model , we can derive the ...
... distribution , where Fp ( ) d is the probability of a pore chord having a value between 1 and 1 + d , and F ( 1 ) dl is the corresponding probability for a solid chord . With the two - chord distribution model , we can derive the ...
Page 454
... distribution model . The chords in pores have a fairly narrow distribution , while the chords in the solid have a broader distribution . With the same model , the capillary condensation taking place inside the medium can also be ...
... distribution model . The chords in pores have a fairly narrow distribution , while the chords in the solid have a broader distribution . With the same model , the capillary condensation taking place inside the medium can also be ...
Contents
THE KINDER GENTLER PROBE OF CONDENSED MATTER | 3 |
NEUTRON SCATTERING METHODS FOR MATERIAL SCIENCE | 15 |
THE ADVANCED NEUTRON SOURCE | 27 |
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1990 Materials Research aerogel alloys analysis angle neutron scattering annealing Argonne Argonne National Laboratory atoms beam boron Bragg Bragg peaks calculated composition concentration copolymer correlation Cu-O decrease defects detector determined deuterated deuterium diffractometer diffuse scattering displacements distribution effect elastic electronic energy experimental Fermi surface ferroelastic Figure film function incoherent scattering increase inelastic interactions interface ISBN lattice parameter layers Lett magnetic Materials Research Society Materials Science measured metals method mode molecular multilayers National Laboratory neutron diffraction neutron powder diffraction neutron reflectivity Neutron Source observed obtained oxygen oxygen content particles peak phase transition phonon Phys plane polymer pore powder diffraction Proc range reactor refinement residual stresses resolution sample scattering intensity short-range order shown in Fig shows silica silicon single crystal sintering specimen spectrometer stoichiometry strain structure factor superconductivity surface Symp technique temperature thermal values Volume Vycor wafer wavelength width X-ray YBCO