| 1 - 10 |
X-ray scattering from metallic multilayers
Rafaja D |
| 12 - 17 |
Deconvolution by example - Computational test of effective algorithms
Kojdecki MA |
| 18 - 23 |
Deconvolution of X-ray diffraction profiles using series expansion: A line-broadening study of polycrystalline 9-YSZ
Sanchez-Bajo F, Ortiz AL, Cumbrera FL |
| 24 - 29 |
Powder pattern decomposition with the aid of preferred orientation - Use of the whole Debye-Scherrer ring
Cerny R |
| 30 - 35 |
Fundamental parameters versus learnt profiles using the Rietveld program BGMN
Bergmann J, Kleeberg R |
| 38 - 46 |
Structure solution of molecular crystals from powder diffraction data using Genetic Algorithms: Opportunities in academic and industrial research
Harris KDM, Johnston RL, Kariuki BM, Tedesco E, Turner GW |
| 47 - 52 |
Structure determination by powder diffractometry: Internet course
Le Bail A, Laligant Y, Jouanneaux A |
| 53 - 58 |
Structure solution from powder diffraction data by a combined global optimization of several cost functions: Problems and perspectives
Putz H |
| 59 - 64 |
MEM-based structure-refinement system REMEDY and its applications
Izumi F, Kumazawa S, Ikeda T, Hu WZ, Yamamoto A, Oikawa K |
| 65 - 70 |
ESPOIR: A program for solving structures by Monte Carlo analysis of powder diffraction data
Le Bail A |
| 71 - 76 |
Modelling of atomic and magnetic structures from powder diffraction data: Recent developments of the RMCPOW method
Mellergard A, McGreevy RL |
| 77 - 79 |
Re-interpretation of the direct methods sum function
Rius J, Torrelles X, Miravitlles C |
| 80 - 85 |
The limits to the determination of crystal structure from powder X-ray diffraction data
Solans X |
| 86 - 91 |
Standardless estimation of lattice constants based on fundamental-parameters method
Ida T, Toraya H |
| 92 - 97 |
Determination of the thermal expansion coefficient of small samples and powders by X-ray diffractometry up to about 300 degrees C: Some results on metals and rocks
Battaglia S, Mango F |
| 100 - 105 |
Data mining in the ICDD's Metals & Alloys Relational Database
Kabekkodu S, Grosse G, Faber J |
| 106 - 111 |
PCSIWIN: A Windows-based Index program with Hanawalt, Fink and alphabetic search capabilities for use with the ICDD Powder Diffraction File (PDF)
Faber J, Weth CA, Jenkins R |
| 112 - 117 |
WinMProf: Visual Rietveld software
Jouanneaux A, Le Gonidec X, Fitch AN |
| 118 - 123 |
WinPLOTR: A Windows tool for powder diffraction pattern analysis
Roisnel T, Rodriguez-Carvajal J |
| 124 - 129 |
Interlaboratory comparison (round robin) of the application of the Rietveld method to quantitative phase analysis by X-ray and neutron diffraction
Peplinski B, Schultze D, Wenzel J |
| 132 - 141 |
Line Profile Analysis in the Rietveld method and Whole-Powder-Pattern Fitting
Scardi P, Dong YH, Leoni M |
| 142 - 147 |
Calculation of diffraction line profiles for structures with dislocations
Kamminga JD, Delhez R |
| 148 - 153 |
Peak-shape analysis using the general Debye equation
Andreev YG, Bruce PG |
| 154 - 159 |
Peculiarities of the X-ray powder diffraction patterns from FCC crystals containing a high concentration of random deformation stacking faults
Ustinov AI, Storchak NM, Olikhovska LO |
| 160 - 165 |
Structural characteristics of disordered lamellar structures: Interpretation of XRD and SAXS patterns
Ben Rhaiem H, Amara AB, Pons CH |
| 166 - 171 |
Peak shift correction for transparency in classical XRD residual stress methods
Vermeulen AC |
| 174 - 179 |
General newly-discovered regularities of structure inhomogeneity in textured metal materials
Perlovich Y, Isaenkova M, Bunge HJ |
| 180 - 185 |
The fullest description of the structure of textured metal materials with generalized pole figures: The example of rolled Zr alloys
Perlovich Y, Isaenkova M, Bunge HJ |
| 186 - 191 |
Modeling the texture development of two-phase composites by considering intra-crystalline misorientation
Bolmaro R, Brokmeier HG, Roatta A, Fourty A, Bertinetti MA, Signorelli J |
| 192 - 197 |
Anisotropy of secondary extinction coefficient in textured films
Tomov I |
| 200 - 205 |
High resolution X-ray diffraction using energy resolving detectors
Meyer DC, Seidel A, Richter K, Paufler P |
| 206 - 211 |
High-temperature double-crystal X-ray diffractometer for in situ studies, the hotbird
Sequeira AD, Franco N, Neves J |
| 212 - 217 |
Software package for data acquisition and remote control of the high-temperature X-ray diffractometer, hotbird
Franco N, Sequeira AD |
| 218 - 223 |
Comparison of optical elements for X-ray diffraction analysis in para-focusing and parallel beam geometries
Reiss CA |
| 224 - 228 |
Polycapillary condensing lens: Alignment procedures and optical performances
Cappuccio G, Dabagov S, Gramaccioni C |
| 229 - 234 |
X-ray powder diffractometer with an elliptic focusing Gobel mirror and Debye Scherrer geometry
Psycharis V, Perdikatsis V, Gobel H, Gantis A, Loukas D |
| 235 - 239 |
Experimental study of the resolution function of a texture diffractometer
Machajdik D, Pevala A, Frohlich K, Weiss F, Figueras A |
| 240 - 245 |
Improved backloading for better results
Moederl T |
| 248 - 253 |
The commissioning of a high count rate detector on station 2.3 at the SRS
Tang CC, Salvini G, Groves J |
| 254 - 259 |
In situ studies of X-ray diffraction line profiles from strained copper foils
Cheary RW, Tang CC, Lynch P, Roberts MA, Clark SM |
| 262 - 267 |
Automated estimations of asymmetric linewidth parameters for high-resolution X-ray & neutron powder diffraction data
Papoular RJ |
| 268 - 273 |
Magnetic structure determination from powder diffraction symmetry analysis and simulated annealing
Rodriguez-Carvajal J |
| 274 - 279 |
Hydrogen positions in KCo-, CsCo-, CsNi-, and CsCu-Tutton salt compounds determined by neutron powder diffraction
Kockelmann W, Schafer W, Kirfel A, Klapper H, Euler H |
| 282 - 287 |
The concept of the new structure powder diffractometer (SPODI) at the FRM-II in Garching
Gilles R, Krimmer B, Saroun J, Boysen H, Fuess H |
| 288 - 293 |
E9: The new high-resolution neutron powder diffractometer at the Berlin neutron scattering center
Tobbens DM, Stusser N, Knorr K, Mayer HM, Lampert G |
| 294 - 299 |
Monte Carlo simulation of the high-intensity 2-axis neutron diffractometer D20
Hansen TC, Convert P |
| 300 - 305 |
Instrumental resolution function of the ESRF powder diffraction beamline BM16
Masson O, Dooryhee E, Cheary RW, Fitch AN |
| 308 - 313 |
Temperature resolved X-ray diffraction as a tool for studying the recrystallization process in cold-rolled steels
Woning L |
| 314 - 319 |
Interaction of metal nanoparticle surfaces with gas phase studied by X-ray diffraction
Kaszkur Z |
| 320 - 325 |
Amorphous-to-crystalline transformation of thin ITO films studied by in situ grazing incidence X-ray diffractometry
Quaas M, Wulff H, Steffen H, Hippler R |
| 326 - 330 |
In situ X-ray powder diffraction: The reactions of Pb(IV)-fluoride with ammonia and NH4F
Reusch U, Schweda E |
| 331 - 335 |
Dynamic XRD studies of phase stabilized ammonium nitrate during temperature cycling
Engel W, Fietzek H, Herrmann M, Kempa PB |
| 336 - 339 |
In situ X-ray and neutron diffraction study of Ba2In2O5
Speakman SA, Misture ST |
| 340 - 345 |
Neutron diffraction direct observation of the decomposition processes in a Bi : Pb : Sr : Ca : Cu=1.7 : 0.3 : 2.0 : 2.5 : 3.5 nitrate freeze dried powder
Alexe G, Badica P, Aldica G, Mironova GM |
| 346 - 350 |
Phase transitions on dehydration of the natural zeolite thomsonite
Stahl K |
| 352 - 357 |
Formation of nanocrystalline Re-Si thin film composites
Pitschke W, Hofman D, Burkov AT, Schumann J, Heinrich A |
| 358 - 363 |
X-ray diffraction line broadening from gold and platinum thin films
Lynch PA, Cheary RW, Dooryhee E, Armstrong N, Tang C |
| 364 - 369 |
Co/Si/W/Si multilayers with enhanced thermal stability for soft X-ray and UV optics
Jergel M, Anopchenko A, Luby S, Majkova E, Senderak R, Holy V |
| 370 - 375 |
Influence of annealing on structural properties of metallic multilayers
Hecker M, van Loyen L, Tietjen D, Schell N, Schneider CM |
| 378 - 382 |
Bulk and surface structure of semifluorinated polyesters
Jehnichen D, Pospiech D, Janke A, Friedel P, Haussler L, Gottwald A, Kummer S, Kollig W, Grundke K |
| 383 - 388 |
C-60-polymer nanocomposites: Evidence for interface interaction
Giusca C, Alexe G, Baibarac M, Baltog I, Manaila R, Devenyi A |
| 389 - 393 |
Crystallinity of urea - Formaldehyde polycondensation products
Capra AD, Tica R, Ursutiu D, Samoila C, Van Landschoot N |
| 394 - 399 |
X-ray diffraction study of Cu-25[AsSe1.4I0.2](75) amorphous semiconductor
Bordas A, Vucinic M, Kapor A, Antic B |
| 402 - 407 |
Crystal structure and magnetic properties of Gd1+nFe12-x-yMox square(y) solid solution
Mattern N, Zinkevich M, Ehrenberg H, Knapp M, Handstein A |
| 408 - 413 |
Neutron diffraction study of the magnetic structures of some RT2X2 compounds
Szytula A, Hofmann M, Leciejewicz J, Kolenda M, Penc B |
| 414 - 419 |
Neutron powder diffraction of iron-rich rare earth-iron-aluminium intermetallics RFe7Al5 (R = Tb, Dy, Ho, Er)
Schafer W, Halevy I |
| 420 - 425 |
X-ray diffraction study of the effect of a magnetic field an the martensitic transformation in Ni2MnGa alloys
Glavatska N, Ullakko K |
| 426 - 429 |
Effect of y double left right arrow alpha a transitions on the crystal structure of Fe-Ni Alloys
Bondar V, Danil'chenko VE, L'Heritier P, Sagaradze V |
| 430 - 433 |
Time temperature-transformation diagrams of some alloy materials
Pigrova GD |
| 434 - 439 |
X-ray anomalous diffraction study of the crystal structure of Y(Co,Ni)(4)B compounds
Chacon C, Isnard O, Berar JF |
| 440 - 442 |
Influence of structural factors on laser hardening of iron
Danil'chenko VE, Polchuk B |
| 443 - 445 |
Distribution of residual stresses in the surface layers of carbon steels after laser treatment
Danil'chenko VE, Polchuk B |
| 446 - 450 |
Small-angle neutron scattering study of potassium-doped tungsten wire samples
Grosz T, Borbely S, Harmat P, Ioffe A, Rosta L |
| 451 - 456 |
Diffraction-line profile analysis - A simple way to characterize ball-milled mo?
Lucks I, Lamparter P, Mittemeijer EJ |
| 457 - 462 |
X-ray analysis of the defect structure in Cu subjected to severe plastic deformation
Kilmametov AR, Zhang K, Alexandrov IV, Mazitov RM, Lu K |
| 463 - 468 |
Structural studies of ultrafine grained copper obtained by severe plastic deformation
Kuzel R, Cizek J, Prochazka I, Chmelik F, Islamgaliev RK, Amirkhanov NM |
| 469 - 474 |
Crystal structure of the high pressure phase of Bismuth Bi-III
Degtyareva O, McMahon MI, Nelmes RJ |
| 476 - 481 |
Structure and thermal behaviour of new potassium and ammonium lanthanum sulfates from X-ray powder diffraction
Benard-Rocherulle P, Tronel H, Louer D |
| 482 - 486 |
Simultaneous structural and metal-insulator transition in RNiO3 perovskites (R=Ho, Y, Er, Lu)
Alonso JA, Martinez-Lope MJ, Casais MT, Garcia-Munoz JL, Fernandez-Diaz MT, Aranda MAG |
| 487 - 492 |
Oxygen disorder and conductivity in pyrochlore and perovskite-based compounds
Berastegui P, Hull S, Eriksson SG |
| 493 - 498 |
A study of the thermal annealing influence on the structure and phase composition of silicon carbonitride films by the diffraction of synchrotron radiation
Fainer NI, Maximovski EA, Kosinova ML, Rumyantsev YM |
| 499 - 504 |
Phase transition and magnetic ordering of the quasi one-dimensional antiferromagnet RbMnBr3
Tsipenyuk YM |
| 505 - 510 |
A neutron powder diffraction and inelastic light scattering study of (La,Sr)MnO3+delta
Eriksson SG, Ivanov S, Eriksen J, Valkeapaa M, Johansson LG, Rundlof H, McGreevy R, Berastegui P, Bjornsson P, Rubhausen M, Backstrom J, Kall M, Borjesson L |
| 511 - 516 |
Neutron powder diffraction study of structural phase transitions in BaPbO3
Ivanov SA, Eriksson SG, Tellgren R, Rundlof H |
| 517 - 522 |
Crystal structure studies of natural and synthetic apatites by neutron powder diffraction
Leventouri T, Chakoumakos BC, Papanearchou N, Perdikatsis V |
| 523 - 528 |
Thermal study of a precursor for catalyst supports: Well- and micro-crystallised boehmites
Gobichon AE, Rebours B, Euzen P |
| 529 - 533 |
Aluminum nitride compressibility and thermal expansion under pressure
Gierlotka S, Gregorczyk A, Palosz B, Grzanka E, Biczyk P, Bismayer U |
| 534 - 538 |
High-pressure studies of La0.25Ca0.75MnO3 using X-ray diffraction at the ESRF synchrotron
Levy D, Meneghini C |
| 539 - 544 |
Synchrotron X-ray powder diffraction study of a pressure-induced phase transition in ferroelectric PbTiO3
Levy D, Sani A |
| 545 - 550 |
Study of disorder caused by the dehydration of hydrated kaolinite
Naamen S, Ben Rhaiem H, Jemai S, Amara AB |
| 551 - 556 |
Effect of an excess of lithium ions on the formation of mn-substituted LiFe5O8 with an ordered spinel structure
Wolska E, Piszora P, Darul J, Nowicki W |
| 557 - 562 |
Growth behaviour of aluminium oxide in O-2 microwave plasma
Quade A, Wulff H |
| 563 - 568 |
Effect of electric and magnetic fields on the processes of self-propagating high-temperature synthesis
Kuznetsov MV, Morozov YG |
| 569 - 574 |
Does lithology affect illite and chlorite crystallinities?
Jacob G, Konig U |
| 576 - 581 |
Ab initio crystal structure determination and thermal behaviour of a large-pore, 24-membered ring, zeolitic nickel(II) phosphate, VSB-5
Guillou N, Forster PM, Gao Q, Cheetham AK, Ferey G |
| 582 - 587 |
Ab initio crystal structure determination of three pharmaceutical compounds from X-ray powder diffraction data
Giovannini J, Perrin MA, Louer D, Leveiller F |
| 588 - 593 |
Lead zirconium oxalates: Ab initio crystal structure determination, water-vapour-pressure dependence, thermal behaviour
Boudaren C, Louer M, Auffredic JP, Louer D |
| 594 - 599 |
Anomalous valence contrast of metal transition in nanocrystalline ferrite
Lorimier J, Bernard F, Isnard O, Niepce JC, Berar JF |
| 600 - 605 |
Structure determination of kappa-Al2O3
Langer V, Smrcok L, Halvarsson M, Yourdshahyan Y, Ruberto C, Ruppi S |
| 606 - 610 |
Simultaneous neutron and X-ray refinement of the structure of Ag2Cu2O3, the first silver copper oxide
Tejada-Rosales EM, Rodriguez-Carvajal J, Palacin MR, Gomez-Romero P |
| 611 - 615 |
Phase segregation in Bi1-xCaxMnO3 (x >= 0.75) investigated by neutron and synchrotron X-ray diffraction
Garcia-Munoz JL, Aranda MAG, Llobet A, Frontera C, Alonso JA, Ritter C |
| 616 - 620 |
Neutron diffraction studies of the crystal and magnetic structures of BiMnxFe1-xO3 solid solutions
Sosnowska I, Schafer W, Kockelmann W, Troyanchuk IO |
| 621 - 625 |
Charge-order and phase coexistence in Bi1/2Sr1/2MnO3
Frontera C, Garcia-Munoz JL, Llobet A, Aranda MAG, Ritter C, Respaud M, Vanacken J |
| 626 - 631 |
Cation disorder in the mixed lead bismuth oxides A(0.875)Pb(0.125)Bi(2)Nb(2)O(9), A = Sr, Ba
Kennedy BJ |
| 632 - 637 |
Powder structure determination of Li2PdO3: a NaCl structure type with turbostratic effect
Laligant Y, Lacorre P, Rodriquez-Carvajal J |
| 638 - 643 |
Refinement of incommensurate misfit compounds: Sr14-xCaxCu24O41
Pachot S, Darie C, Berar JF, Bordet P, Bougerol-Chaillout C |
| 644 - 648 |
Structural modifications of Rb3RE(PO4)(2) phases (RE = La, Gd, Y)
Areva S, Holsa J, Kloss M, Lahtinen M, Lamminmaki RJ, Lastusaari M, Schwarz L, Valkonen J |
| 649 - 654 |
When X-ray powder diffraction goes beyond single crystal diffraction: the structure of [Y(H2O)](2)(C2O4)(CO3)(2) revisited using powder data
Bataille T, Louer D |
| 655 - 658 |
Rietveld refinement of the crystal structure of potassium iron oxalate trihydrate from laboratory X-ray powder diffraction data
Delgado G, Mora AJ |
| 659 - 664 |
High temperature powder X-ray diffraction of MZnPO4 compounds (M = Na, K, Tl)
Andratschke M, Range KJ |
| 665 - 670 |
Synchrotron X-ray powder structure of the new layered phosphate Ti2O2H(PO4)[(NH4)(2)PO4](2)
Garcia-Granda S, Salvado MA, Pertierra P, Garcia JR, Bortun AI, Clearfield A |
| 671 - 676 |
Structural characterization of synthetic Beudantite-type phases by Rietveld refinement
Alcobe X, Bassas J, Tarruella I, Roca A, Vinals J |
| 677 - 682 |
Structure of Mg-exchanged phillipsites
Gualtieri AF |
| 684 - 689 |
Quantitative Rietveld phase analysis of BPSCCO-2223 precursor powders and multifilamentary tapes using XRD
Gaberlein POG, Risch A, Neubauer J, Gobbels M |
| 690 - 695 |
Quantitative phase analysis of high alumina cement
Guirado F, Gali S, Chinchon S |
| 696 - 701 |
Quantitative X-ray powder diffraction analysis of some feldspars used as raw material in ceramics
Amigo JM, Bastida J, Esteve V, Miravitlles C, Ochando LE, Reventos MM, Delgado JM, Rius J |
| 702 - 707 |
Quantitative phase analysis of natural raw materials containing montmorillonite
Gualtieri AF, Viani A, Banchio G, Artioli G |
| 710 - 715 |
Linear thermal expansion tensor in KRE(WO4)(2) (RE=Gd, Y, Er, Yb) monoclinic crystals
Pujol MC, Mateos X, Sole R, Massons J, Gavalda J, Diaz F, Aguilo M |
| 718 - 722 |
Neutron texture investigation of electrolytic Li2CO3/KLiCO3 from a molten carbonate fuel cell
Jansen E, Schafer W, Kirfel A, Neuroth M |
| 723 - 728 |
Structural properties of carbon-implanted TiN coatings studied by glancing-incidence x-ray diffraction
Tagliente MA, Falcone R, Mello D, Esposito C, Tapfer L |
| 729 - 734 |
X-ray line profile analysis of nanodisperse silicon nitride ceramics
Gubicza J, Szepvolgyi J, Mohai I, Ungar T |
| 735 - 740 |
Distribution of strain in GaN and SiC nanocrystals under extreme pressures
Palosz B, Gierlotka S, Grzanka E, Akimow K, Pielaszek R, Biczyk P, Grzegorczyk A, Stel'makh S, Bismayer U, Janik JF |
| 741 - 746 |
XRPD analysis of karrooite-like metastable nanocrystalline phases
Zabicky J, Kimmel G, Goncharov E, Dayan D |
| 747 - 752 |
Sizes and shapes of crystallites in mullites produced by thermal treatment of kaolin-alumina mixture
Kojdecki MA, Seranno FJ, Clausell JV, Bastida J |
| 753 - 758 |
Stacking disorder in aurivillius compounds studied by X-ray diffraction line profile analysis
Boulle A, Legrand C, Thomas P, Guinebretiere R, Mercurio JP, Dauger A |
| 759 - 764 |
Chemical and x-ray diffraction peak broadening analysis, electron microscopy and IR studies of biological apatites
Psycharis V, Kalamakis N, Boukos N, Trapalis C, Bourlinos A, Karakasides M |
| 765 - 770 |
Mechanochemical treatment of SrFe12O19 - Microstructural investigation by neutron diffraction
Hofmann M, Campbell SJ, Wu E, Kaczmarek WA, Dahlborg M, Dahlborg U |
| 771 - 776 |
Magnetic cation distribution in a nanocrystalline Fe(3)O(4) spinel
Somogyvari Z, Svab E, Meszaros G, Krezhov K, Konstantinov P, Ungar T, Gubicza J |
| 777 - 782 |
Determination of the cationic composition distributions in mixed uranium and plutonium oxides by diffraction-line profile analysis
Buisson P, Piluso P, Pernet M, Anne M |
| 784 - 788 |
Structure determination of 4,4'-trimethylenedipyridine from powder diffraction data
Tedesco E, Dhillon SS, Harris KDM, Johnston RL, Turner GW, Kariuki BM |
| 789 - 794 |
Crystal structure solution of the dark red, light red and orange pollymorphs of 5-methyl-2-[(2-nitro-4-methylphenyl)amino]-3-thiophenecarbonitrile by high resolution X-ray powder diffraction and simulated annealing techniques
Pagola S, Stephens PW, He X, Byrn SR |
| 795 - 797 |
Crystal structure determination of p-bromoaniline using laboratory X-ray powder diffraction data
Delgado G, Mora AJ |
| 798 - 801 |
Structure determination of two organometallic complexes from powder data using grid-search techniques
Dova E, Goubitz K, Driessen R, Sonneveld E, Chernyshev V, Schenk H |
