Verfügbarkeit: X-ray scattering of soft matter

X-ray scattering of soft matter:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Stribeck, Norbert (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2007
Schriftenreihe:	Springer laboratory manuals in polymer science
Schlagworte:	Matière molle (Physique) Rayons X - Diffusion Soft condensed matter X-rays > Scattering Röntgenstreuung Polymere Weiche Materie
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XX, 238 S. Ill., graph. Darst., Kt.
ISBN:	9783540698555 9783540698562

Internformat

MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1 POLYDISPERSITY AND HETEROGENEITY 1 1 . 1 S C A T T E R I N G , P O L Y D I S P E R S I T YA N DMA T E R I A L SPR O P E R T I E S . 1 1 . 2 DI S T R I B U T I O NF U N C T I O N SA N DPH Y S I C A L P A R A ME T E R S . 2 1 . 2 . 1 TH ENU MB E RMO L E C U L A R MA S SDI S T R I B U T I O N. 2 1 . 2 . 2 TH ENU MB E RAV E R A G EMO L E C U L A R MA S S. 3 1 . 3 MO ME N T S . 4 2 GENERAL BACKGROUND 7 2 . 1 TH ES U B A R E A SO FX- RA YSC A T T E R I N G . 7 2 . 2 X- RA Y SA N DMA T T E R . 8 2 . 2 . 1 GE N E R A L. 8 2 . 2 . 2 P O L A R I Z A T I O N. 8 2.2.2.1 POLARIZATION FACTOR OF A LABORATORY SOURCE . . . . 9 2 . 2 . 2 . 2 S Y N C H R O T R O NBE A MP O L A R I Z A T I O NF A C T O R . 9 2 . 2 . 3 CO MP T O NS C A T T E R I N G . 1 0 2 . 2 . 4 F L U O R E S C E N C E . 1 0 2 . 3 CL A S S I C A LX- RA YSE T U P . 1 1 2 . 4 S - S P A C EA N DQ - S P A C E . 1 1 2 . 5 S C A T T E R I N GI N T E N S I T YA N DSA MP L ES T R U C T U R E . 1 3 2 . 5 . 1 LA Y - OU T O FT H EMA G I CS Q U A R E . 1 4 2 . 5 . 2 AN A L Y S I SOP T I O N SEX A MP L EF O R S AXSDA T A . 1 4 2.5.3 PARAMETERS, FUNCTIONS AND OPERATIONS IN THE MAGIC SQUARE . 15 2 . 5 . 4 CO N V O L U T I O N , CO R R E L A T I O NA N DAU T O C O R R E L A T I O N. 1 6 2 . 6 P O L Y D I S P E R S I T YA N DS C A T T E R I N GI N T E N S I T Y. 1 8 2 . 7 AGL A N C EA TT H EMA T H E MA T I C A L LA B O R A T O R YO FS C A T T E R I N G. 2 1 2 . 7 . 1 TH ES L I C E . 2 2 2 . 7 . 2 TH EP R O J E C T I O N . 2 3 2 . 7 . 3 F O U R I E R S L I C ETH E O R E M . 2 3 2 . 7 . 4 F O U R I E R DE R I V A T I V ETH E O R E M . 2 3 2 . 7 . 5 BR E A D T HTH E O R E M. 2 4 2 . 7 . 6 DI L A T I O NAN DRE C I P R O C I T Y. 2 4 2.7.7 D IRAC 'S - F U N C T I O N . 2 5 2 . 7 . 8 CO N V O L U T I O NTH E O R E M . 2 5 2 . 7 . 9 BA N D L I MI T E DFU N C T I O N S. 2 5 2 . 8 HO WT OCO L L E C TCO MP L E T ES C A T T E R I N GPA T T E R N S . 2 6 XVI 2 . 8 . 1 I S O T R O P I CS C A T T E R I N G. 2 6 2 . 8 . 2 AN I S O T R O P I CS C A T T E R I N G . 2 6 2 . 8 . 2 . 1 S I N G L ECR Y S T A LAN I S O T R O P Y. 2 6 2 . 8 . 2 . 2 F I B E RS Y MME T R Y. 2 7 2 . 9 AP P L I C A T I O NO FDI G I T A L I MA G EP R O C E S S I N G( DI ) . 2 9 2 . 9 . 1 DIA N DT H EAN A L Y S I SO FS C A T T E R I N GPA T T E R N S. 2 9 2.9.2 A SCATTERING PATTERN IS A MATRIX OF NUMBERS, NOT A PHOTO . 30 2.9.3 HOW TO UTILIZE DI . 3 0 2.9.4 CONCEPTS OF DI THAT EASE THE ANALYSIS OF SCATTERING IMAGES . 30 2 . 9 . 4 . 1 TH EP A R A D I G M: AR I T H ME T I C SWI T HMA T R I C E S . 3 0 2 . 9 . 4 . 2 S U B MA T R I XRA N K I N GOP E R A T O R S. 3 1 2.9.4.3 PRIMITIVE OPERATORS: ERODE, MEDIAN, AND DILATE . 31 2 . 9 . 4 . 4 CO MB I N E DOP E R A T O R S : OP E N I N G&CL O S I N G . 3 2 3 TYPICAL PROBLEMS FOR ANALYSIS BY X-RAY SCATTERING 33 3.1 EVERYDAY INDUSTRIAL PROBLEMS . . . 3 3 3 . 2 ATT H EF R O N T O FI N N O V A T I O N . 3 4 3 . 2 . 1 WE BRE S O U R C E S. 3 4 3 . 2 . 2 F I E L D SOFI N N O V A T I O N . 3 4 3.2.2.1 VISUALIZE AND MODEL STRUCTURE AUTOMATICALLY . . 34 3 . 2 . 2 . 2 S T U D YGR A D I E N T MA T E R I A L S . 3 5 3 . 2 . 2 . 3 S T U D YTH I NF I L MS . 3 5 3 . 2 . 2 . 4 S T U D YST R U C T U R EEV O L U T I O N. 3 5 4 EXPERIMENTAL OVERVIEW 37 4 . 1 TH ES H A P EO FT H EP R I MA R YBE A M . 3 8 4.1.1 POINT FOCUS COLLIMATION . 3 8 4.1.2 SLIT FOCUS COLLIMATION . . 3 9 4 . 1 . 2 . 1 CO MMO NCA ME R A SA N DPR O P E R T I E S. 3 9 4 . 1 . 2 . 2 I N TH N I T ES L I TLE N G T H. 3 9 4.1.2.3 A FIBER IN A SLIT-FOCUS CAMERA . . . 4 0 4.1.3 DESMEARING OF SLIT-FOCUS DATA . . . . . 4 0 4 . 1 . 4 S ME A R I N GO FP O I N T - F O C U SDA T A. 4 1 4.2 SETUP OF POINT-COLLIMATION APPARATUS . . . . . 4 1 4 . 2 . 1 TH ERA D I A T I O NS O U R C E. 4 2 4.2.1.1 ROTATING ANODE . . . . . . . 4 2 4 . 2 . 1 . 2 S Y N C H R O T R O NRA D I A T I O N. 4 2 4 . 2 . 1 . 3 XF EL:TH EX- RA YFR E EEL E C T R O NLA S E R. 4 4 4 . 2 . 2 BE A MAMP L I TH C A T I O NB YI N S E R T I O NDE V I C E S. 4 6 4 . 2 . 3 BE A MS H A P I N GB YOP T I C A L DE V I C E S. 4 6 4 . 2 . 3 . 1 TH EGOE B E L MI R R O R . 4 6 4.2.3.2 CONVENTIONAL SYNCHROTRON BEAMLINE OPTICS . . . 47 4.2.3.3 MICROBEAM OPTICS (WAVE-GUIDES, X-RAY LENSES) 47 4.2.3.4 NANOBEAM OPTICS (KIRKPATRICK-BAEZ MIRRORS) . . 48 4.2.3.5 BEAM-POSITION MONITORING . 5 0 LISTS OF SYMBOLS AND ABBREVIATIONS XVII 4 . 2 . 3 . 6 S H U T T E R S . 5 0 4.2.3.7 SLITS . . . . 5 0 4 . 2 . 3 . 8 S T A B I L I Z E R S . 5 1 4 . 2 . 3 . 9 AB S O R B E R S . 5 1 4 . 2 . 4 TH ES A MP L ERE C I P I E N T . 5 1 4 . 2 . 4 . 1 OP T I C A L BE N C HVS . DA N C EF L O O R . 5 2 4 . 2 . 4 . 2 CH A MB E R SF O RS A MP L EP O S I T I O N I N G. 5 2 4 . 2 . 4 . 3 RE C I P I E N T SF O RS A MP L EP R O C E S S I N G. 5 3 4 . 2 . 5 DE T E C T O R S . 5 3 4 . 2 . 5 . 1 CR I T E R I AF O RDE T E C T O R P E R F O R MA N C E. 5 3 4 . 2 . 5 . 2 CCDDE T E C T O R S. 5 4 4 . 2 . 5 . 3 I MA G EP L A T E S. 5 5 4.2.5.4 GAS-FILLED DETECTORS . . . . 5 6 4 . 2 . 5 . 5 OT H E RX- RA YDE T E C T O R S . 5 7 4 . 2 . 5 . 6 DE T E C T O ROP E R A T I O NMO D E : BI N N I N G. 5 8 4 . 2 . 6 EX P E R I ME N T MO N I T O R S. 5 8 4 . 2 . 6 . 1 MO N I T O R I N G , J O U R N A L I N G , CO N T R O L. 5 8 4 . 2 . 6 . 2 BE A MI N T E N S I T YMO N I T O R I N G . 5 9 4 . 3 DA T AAC Q U I S I T I O N , EX P E R I ME N T CO N T R O L A N DI T SPR I N C I P L E S . 5 9 4 . 3 . 1 VO L T A G E - T O - F R E Q U E N C YCO N V E R S I O N( VF C) . 5 9 4.3.2 UNIX AND THE COMMUNICATION AMONG ACQUISITION MODULES 61 5 ACQUISITION OF SYNCHROTRON BEAMTIME 63 5 . 1 T E S TME A S U R E ME N T S . 6 3 5.2 SUPPORT OR COLLABORATION . . . 6 3 5.3 A GUIDE TO PROPOSAL WRITING . 6 4 6 IT'S BEAMTIME, PHIL: A GUIDE TO COLLECT A COMPLETE SET OF DATA 67 6 . 1 BEOR G A N I Z E D . 6 7 6 . 2 VE R YI MP O R T A N T : DA T AFI L ECH E C K. 6 7 6 . 3 NE V E R S T O R ET E S TS N A P S H O T SF R O MDE T E C T O RME MO R Y. 6 8 6 . 4 T OBECO L L E C T E DBE F O R ET H EF I R S TEX P E R I ME N T. 6 8 6 . 4 . 1 ME A S U R E ME N T O FT H ES A MP L E - DE T E C T O R DI S T A N C E . 6 9 6.4.2 MEASUREMENT OF THE DETECTOR RESPONSE . . . . . . 6 9 6 . 4 . 3 ME A S U R E ME N T O FT H EP R I MA R YBE A MPR O TH L E. 6 9 6 . 5 T OBECO L L E C T E DF O REA C HNE WRU N. 6 9 6 . 6 AD J U S T ME N T SWI T HEA C HEX P E R I ME N T . 7 0 6 . 7 CO L L E C T GO O DDA T A . 7 0 6 . 8 T OBECO L L E C T E DWI T HEA C HSC A T T E R I N GP A T T E R N . 7 1 7 PRE-EVALUATION OF SCATTERING DATA 73 7 . 1 RE A D I N GT H ES C A T T E R I N GDA T AF I L E S. 7 4 7.2 ASSESSMENT OF SAXS MULTIPLE SCATTERING . . 7 4 7 . 3 NO R MA L I Z A T I O N. 7 5 7 . 4 VA L I DAR E AMA S K I N G. 7 5 XVIII 7 . 5 AL I G N ME N T. 7 6 7.6 ABSORPTION AND BACKGROUND CORRECTION . . . . 7 6 7 . 6 . 1 AB S O R P T I O NT H EP R I N C I P L E . 7 7 7 . 6 . 2 AB S O R P T I O NI NNO R MA L - TR A N S MI S S I O NGE O ME T R Y . 7 7 7 . 6 . 3 AB S O R P T I O NI NRE SS E C T I O NGE O ME T R I E S. 8 0 7.6.3.1 THIN SAMPLES IN SYMMETRICAL-RESSECTION GEOMETRY 81 7.6.3.2 THIN SAMPLES IN ASYMMETRICAL-RESSECTION GEOM- E T R Y. 8 2 7.6.4 CALCULATIONS: ABSORPTION FACTOR, OPTIMUM SAMPLE THICKNESS 83 7 . 6 . 5 RE F R A C T I O NCO R R E C T I O N. 8 4 7.7 RECONSTRUCTION OF PROPER CONSTITUTION . . . . . 8 5 7 . 8 CO N V E R S I O NT ORE C I P R O C A L S P A C EUN I T S . 8 5 7 . 8 . 1 I S O T R O P I CS C A T T E R I N G. 8 5 7 . 8 . 2 AN I S O T R O P I CS C A T T E R I N G . 8 5 7 . 8 . 2 . 1 US AXSAN DSAXS . 8 5 7 . 8 . 2 . 2 MAXSAN DWAXSWI T HFI B E RS Y MME T R Y. 8 5 7.8.2.3 MAXS AND WAXS WITHOUT FIBER SYMMETRY . . . 85 7 . 9 HA R MO N Y . 8 6 7 . 1 0CA L I B R A T I O NT OAB S O L U T ES C A T T E R I N GI N T E N S I T Y . 8 6 7 . 1 0 . 1 TH EUN I T SO FAB S O L U T ES C A T T E R I N GI N T E N S I T Y. 8 6 7 . 1 0 . 2 AB S O L U T EI N T E N S I T YI NSAXS . 8 7 7 . 1 0 . 2 . 1 TH EI D E AO FDI R E C T CA L I B R A T I O N. 8 7 7 . 1 0 . 2 . 2 DI R E C TCA L I B R A T I O NF O R T H EKR A T K YCA ME R A. 8 8 7.10.2.3 DIRECT CALIBRATION FOR A SYNCHROTRON BEAMLINE . . 90 7.10.2.4 INDIRECT CALIBRATION USING A POLYMER SAMPLE . . . 91 7 . 1 0 . 2 . 5 I N D I R E C T CA L I B R A T I O NBYF L U I DST A N D A R D S. 9 2 7 . 1 0 . 3 ALI N KT OAB S O L U T EI N T E N S I T YI NWAXS . 9 2 8 INTERPRETATION OF SCATTERING PATTERNS 95 8 . 1 S H A P EO FT H ES C A T T E R I N GI N T E N S I T YATVE R YS MA L LAN G L E S . 9 5 8.1.1 G UINIER ' SA P P R O X I MA T I O N . 9 5 8.1.2 USABILITY FOR DATA EXTRAPOLATION . . . . 9 6 8.1.3 USABILITY FOR STRUCTURE PARAMETER DETERMINATION . . . 9 6 8.1.4 DETERMINATION OF THE PARAMETERS OF G UINIER ' SL A W. 9 6 8.1.5 MEANING OF THE PARAMETERS OF G UINIER ' SLA W . 9 7 8 . 2 P E A KSP O T T I N G : WAXSRE SS E C T I O N S , LO N GP E R I O D S . 9 9 8 . 2 . 1 DI S C R E T EA N DDI F F U S ES C A T T E R I N G . 9 9 8.2.2 PEAKS IN ISOTROPIC AND ANISOTROPIC SCATTERING PATTERNS . . . 99 8 . 2 . 2 . 1 I S O T R O P YA N DAN I S O T R O P Y. 9 9 8 . 2 . 2 . 2 WH E R ET OSE A R C HF O RP E A K SO FF I B E R S . 1 0 0 8 . 2 . 3 WAXSPE A K SA N DP E A KPO S I T I O N S. 1 0 0 8.2.4 DETERMINATION OF WAXS CRYSTALLINITY . 1 0 2 8 . 2 . 4 . 1 P H E N O ME N O N. 1 0 2 8.2.4.2 CRYSTALLINITY INDEX . . . . . . 1 0 3 8.2.4.3 WAXS CRYSTALLINITY FOR UNDISTORTED CRYSTALS . . . 103 LISTS OF SYMBOLS AND ABBREVIATIONS XIX 8.2.4.4 WAXS CRYSTALLINITY CONSIDERING DISTORTIONS . . . 104 8 . 2 . 5 WAXSLI N EP R O TH L EAN A L Y S I S. 1 0 4 8 . 2 . 5 . 1 EX P E R I ME N T A L T E C H N I Q U E. 1 0 4 8.2.5.2 SCIENTITHC GOALS OF LINE PROTHLE ANALYSIS . . . . . 104 8 . 2 . 5 . 3 I N S T R U ME N T A L BR O A D E N I N G . 1 0 6 8.2.5.4 CRYSTAL SIZE AND LATTICE DISTORTION SEPARABILITY 106 8.2.5.5 SEPARATION ACCORDING TO W ARREN -A VERBACH . 107 8.2.5.6 MATCHING LATTICE DISTORTIONS AND STRUCTURAL MODELS 109 8.2.5.7 CLASSICAL W ARREN -A VERBACH SEPARATION . . . . 110 8 . 2 . 5 . 8 S E P A R A T I O NAF T E RP E A KSH A P EMO D E L I N G. 1 1 4 8 . 2 . 6 P E A K SI NSAXSPA T T E R N S . 1 1 7 8 . 3 NOPE A K S : TH EI N T E R P R E T A T I O NO FDI F F U S ES C A T T E R I N G. 1 1 8 8.3.1 INTENSITY LEVEL BETWEEN SAXS AND WAXS: ELECTRON DENSITY F L U C T U A T I O N S. 1 1 9 8.3.2 INTENSITY DECAY BETWEEN SAXS AND WAXS: P OROD 'S LAW 121 8 . 3 . 3 S AXS :F R A C T A LS T R U C T U R E . 1 2 7 8 . 4 GE N E R A L EV A L U A T I O NB YI N T E G R A T I O NO FS C A T T E R I N GDA T A . 1 2 9 8.4.1 AZIMUTHAL AVERAGING OF ISOTROPIC SCATTERING PATTERNS . . . . 129 8 . 4 . 2 I S O T R O P I Z A T I O NO FAN I S O T R O P I CS C A T T E R I N GP A T T E R N S . 1 3 0 8 . 4 . 3 S AXSPR O J E C T I O N S . 1 3 2 8 . 4 . 3 . 1 S C A T T E R I N GP O WE R( I N V A R I A N T ). 1 3 2 8 . 4 . 3 . 2 1 DP R O J E C T I O N S. 1 3 5 8 . 4 . 3 . 3 2 DP R O J E C T I O N S. 1 3 8 8.5 VISUALIZATION OF DOMAIN TOPOLOGY FROM SAXS DATA . . . 1 3 8 8.5.1 EXTRACTION OF THE TOPOLOGICAL INFORMATION . . . . . 1 3 9 8 . 5 . 2 1 DCO R R E L A T I O NF U N C T I O NAN A L Y S I S . 1 4 2 8 . 5 . 3 I S O T R O P I CCH O R DLE N G T HDI S T R I B U T I O N S( CLD) . 1 4 8 8 . 5 . 4 1 DIN T E R F A C EDI S T R I B U T I O NFU N C T I O N S( I DF ). 1 5 0 8 . 5 . 5 AN I S O T R O P I CCH O R DDI S T R I B U T I O NFU N C T I O N S( CDF ) . 1 5 2 8.5.5.1 DETHNITION . 1 5 2 8.5.5.2 COMPUTATION OF THE CDF FOR MATERIALS WITH FIBER S Y MME T R Y . 1 5 3 8 . 5 . 5 . 3 RE L A T I O NBE T WE E NACDFAN DI DF S . 1 5 4 8 . 5 . 5 . 4 HO WT OI N T E R P R E T ACDF. 1 5 5 8.5.5.5 SEMI-QUANTITATIVE CDF ANALYSIS. AN EXAMPLE . . 157 8.6 BIOPOLYMERS: ISOTROPIC SCATTERING OF IDENTICAL UNCORRELATED PARTICLES 161 8.7 QUANTITATIVE ANALYSIS OF MULTIPHASE TOPOLOGY FROM SAXS DATA . . 163 8 . 7 . 1 MO D E L SF O RUN C O R R E L A T E DP O L Y D I S P E R S EP A R T I C L E S. 1 6 4 8 . 7 . 1 . 1 P O L Y D I S P E R S ELA Y E R SA N D1DP A R T I C L E S. 1 6 4 8.7.1.2 UNCORRELATED PARTICLES IN 2D: FIBRIL DIAMETERS IN F I B E R S . 1 6 5 8.7.1.3 UNCORRELATED POLYDISPERSE HOMOGENEOUS SPHERES 169 8.7.1.4 INHOMOGENEOUS SPHERICAL PARTICLES . . . 1 7 0 8.7.2 STOCHASTICALLY CONDENSED STRUCTURE . 1 7 1 8 . 7 . 3 DI S T O R T E DST R U C T U R EB YI N TH N I T E1 DAR R A N G E ME N T. 1 7 5 XX 8 . 7 . 3 . 1 CO N S T R U C T I O NO FA1DP A R A C R Y S T A L . 1 7 5 8 . 7 . 3 . 2 AP P L I C A T I O N . 1 7 6 8 . 7 . 3 . 3 TH ES T A C K I N GMO D E L. 1 7 8 8.7.3.4 THE LATTICE MODEL . . . . . . 1 8 2 8.7.3.5 MODEL FITTING: CHOICE OF STARTING VALUES FOR THE MO D E L P A R A ME T E R S. 1 8 4 8 . 8 NA N O S T R U C T U R E SSO F T MA T E R I A L SWI T HLO N GRA N G EOR D E R . 1 8 5 8 . 8 . 1 RE Q U I R E DCO R R E C T I O N SO FT H ES C A T T E R I N GI N T E N S I T Y. 1 8 5 8.8.2 I 1 ( S ) F R O MANA N O S T R U C T U R E DLA Y E RS Y S T E M . 1 8 6 8 . 8 . 3 T Y P I C A L RE S U L T S. 1 8 7 8 . 9 AN O MA L O U SX- RA YSC A T T E R I N G. 1 8 8 9 HIGH BUT IMPERFECT ORIENTATION 191 9 . 1 BA S I CDE TH N I T I O N SCO N C E R N I N GOR I E N T A T I O N . 1 9 2 9 . 1 . 1 P O L EF I G U R E SA N DTH E I REX P A N S I O N. 1 9 2 9.1.2 THE UNIAXIAL ORIENTATION PARAMETER F OR . 1 9 4 9.1.3 CHARACTER OF FIBER-SYMMETRICAL ORIENTATION DISTRIBUTIONS . 196 9 . 2 OB S E R V E DI N T E N S I T YA N DOR I E N T E DI N T E N S I T YTH ERE L A T I O N. 1 9 7 9 . 3 DE S ME A R I N GB YUS EOFAMA S T E ROR I E N T A T I O NDI S T R I B U T I O N . 1 9 7 9.4 F2: DOUBLE FIBER SYMMETRY * SIMPLITHED INTEGRAL TRANSFORM . 1 9 8 9.5 F3: G ( * ) S H O WSF I B E RS Y MME T R YSO L U T I O N. 2 0 0 9.6 EXTRACTION OF G ( ) FROM MERIDIONAL OR EQUATORIAL RESSECTIONS . . . 200 9 . 6 . 1 UN I MO D A L ME R I D I O N A L RE SS E C T I O NI N T E N S I T Y. 2 0 0 9 . 6 . 2 UN I MO D A L EQ U A T O R I A L RE SS E C T I O NI N T E N S I T Y . 2 0 1 9 . 7 TH ERU L A N DST R E A KME T H O D. 2 0 1 9.8 ANALYTICAL FUNCTIONS WRAPPED AROUND SPHERES: SHAPE CHANGE . . . 205 10 ORIENTATION GROWING FROM THE ISOTROPIC STATE 209 10.1 R ULAND ' STH E O R YO FAF TH N EDE F O R MA T I O N . 2 1 0 1 0 . 1 . 1 OV E R V I E W. 2 1 0 1 0 . 1 . 2 AP P L I C A T I O N. 2 1 1 10.2 THE MGZ TECHNIQUE OF ELLIPTICAL COORDINATES . 2 1 3 11 FITTING MODELS TO DATA 217 11.1 WHICH DATA ARE FITTED? . . 2 1 7 1 1 . 2WH I C HTE C H N I Q U E SAR EAP P L I E D ?. 2 1 8 REFERENCES 221 SUBJECT INDEX 229
adam_txt	TABLE OF CONTENTS 1 POLYDISPERSITY AND HETEROGENEITY 1 1 . 1 S C A T T E R I N G , P O L Y D I S P E R S I T YA N DMA T E R I A L SPR O P E R T I E S . 1 1 . 2 DI S T R I B U T I O NF U N C T I O N SA N DPH Y S I C A L P A R A ME T E R S . 2 1 . 2 . 1 TH ENU MB E RMO L E C U L A R MA S SDI S T R I B U T I O N. 2 1 . 2 . 2 TH ENU MB E RAV E R A G EMO L E C U L A R MA S S. 3 1 . 3 MO ME N T S . 4 2 GENERAL BACKGROUND 7 2 . 1 TH ES U B A R E A SO FX- RA YSC A T T E R I N G . 7 2 . 2 X- RA Y SA N DMA T T E R . 8 2 . 2 . 1 GE N E R A L. 8 2 . 2 . 2 P O L A R I Z A T I O N. 8 2.2.2.1 POLARIZATION FACTOR OF A LABORATORY SOURCE . . . . 9 2 . 2 . 2 . 2 S Y N C H R O T R O NBE A MP O L A R I Z A T I O NF A C T O R . 9 2 . 2 . 3 CO MP T O NS C A T T E R I N G . 1 0 2 . 2 . 4 F L U O R E S C E N C E . 1 0 2 . 3 CL A S S I C A LX- RA YSE T U P . 1 1 2 . 4 S - S P A C EA N DQ - S P A C E . 1 1 2 . 5 S C A T T E R I N GI N T E N S I T YA N DSA MP L ES T R U C T U R E . 1 3 2 . 5 . 1 LA Y - OU T O FT H EMA G I CS Q U A R E . 1 4 2 . 5 . 2 AN A L Y S I SOP T I O N SEX A MP L EF O R S AXSDA T A . 1 4 2.5.3 PARAMETERS, FUNCTIONS AND OPERATIONS IN THE MAGIC SQUARE . 15 2 . 5 . 4 CO N V O L U T I O N , CO R R E L A T I O NA N DAU T O C O R R E L A T I O N. 1 6 2 . 6 P O L Y D I S P E R S I T YA N DS C A T T E R I N GI N T E N S I T Y. 1 8 2 . 7 AGL A N C EA TT H EMA T H E MA T I C A L LA B O R A T O R YO FS C A T T E R I N G. 2 1 2 . 7 . 1 TH ES L I C E . 2 2 2 . 7 . 2 TH EP R O J E C T I O N . 2 3 2 . 7 . 3 F O U R I E R S L I C ETH E O R E M . 2 3 2 . 7 . 4 F O U R I E R DE R I V A T I V ETH E O R E M . 2 3 2 . 7 . 5 BR E A D T HTH E O R E M. 2 4 2 . 7 . 6 DI L A T I O NAN DRE C I P R O C I T Y. 2 4 2.7.7 D IRAC 'S - F U N C T I O N . 2 5 2 . 7 . 8 CO N V O L U T I O NTH E O R E M . 2 5 2 . 7 . 9 BA N D L I MI T E DFU N C T I O N S. 2 5 2 . 8 HO WT OCO L L E C TCO MP L E T ES C A T T E R I N GPA T T E R N S . 2 6 XVI 2 . 8 . 1 I S O T R O P I CS C A T T E R I N G. 2 6 2 . 8 . 2 AN I S O T R O P I CS C A T T E R I N G . 2 6 2 . 8 . 2 . 1 S I N G L ECR Y S T A LAN I S O T R O P Y. 2 6 2 . 8 . 2 . 2 F I B E RS Y MME T R Y. 2 7 2 . 9 AP P L I C A T I O NO FDI G I T A L I MA G EP R O C E S S I N G( DI ) . 2 9 2 . 9 . 1 DIA N DT H EAN A L Y S I SO FS C A T T E R I N GPA T T E R N S. 2 9 2.9.2 A SCATTERING PATTERN IS A MATRIX OF NUMBERS, NOT A PHOTO . 30 2.9.3 HOW TO UTILIZE DI . 3 0 2.9.4 CONCEPTS OF DI THAT EASE THE ANALYSIS OF SCATTERING IMAGES . 30 2 . 9 . 4 . 1 TH EP A R A D I G M: AR I T H ME T I C SWI T HMA T R I C E S . 3 0 2 . 9 . 4 . 2 S U B MA T R I XRA N K I N GOP E R A T O R S. 3 1 2.9.4.3 PRIMITIVE OPERATORS: ERODE, MEDIAN, AND DILATE . 31 2 . 9 . 4 . 4 CO MB I N E DOP E R A T O R S : OP E N I N G&CL O S I N G . 3 2 3 TYPICAL PROBLEMS FOR ANALYSIS BY X-RAY SCATTERING 33 3.1 EVERYDAY INDUSTRIAL PROBLEMS . . . 3 3 3 . 2 ATT H EF R O N T O FI N N O V A T I O N . 3 4 3 . 2 . 1 WE BRE S O U R C E S. 3 4 3 . 2 . 2 F I E L D SOFI N N O V A T I O N . 3 4 3.2.2.1 VISUALIZE AND MODEL STRUCTURE AUTOMATICALLY . . 34 3 . 2 . 2 . 2 S T U D YGR A D I E N T MA T E R I A L S . 3 5 3 . 2 . 2 . 3 S T U D YTH I NF I L MS . 3 5 3 . 2 . 2 . 4 S T U D YST R U C T U R EEV O L U T I O N. 3 5 4 EXPERIMENTAL OVERVIEW 37 4 . 1 TH ES H A P EO FT H EP R I MA R YBE A M . 3 8 4.1.1 POINT FOCUS COLLIMATION . 3 8 4.1.2 SLIT FOCUS COLLIMATION . . 3 9 4 . 1 . 2 . 1 CO MMO NCA ME R A SA N DPR O P E R T I E S. 3 9 4 . 1 . 2 . 2 I N TH N I T ES L I TLE N G T H. 3 9 4.1.2.3 A FIBER IN A SLIT-FOCUS CAMERA . . . 4 0 4.1.3 DESMEARING OF SLIT-FOCUS DATA . . . . . 4 0 4 . 1 . 4 S ME A R I N GO FP O I N T - F O C U SDA T A. 4 1 4.2 SETUP OF POINT-COLLIMATION APPARATUS . . . . . 4 1 4 . 2 . 1 TH ERA D I A T I O NS O U R C E. 4 2 4.2.1.1 ROTATING ANODE . . . . . . . 4 2 4 . 2 . 1 . 2 S Y N C H R O T R O NRA D I A T I O N. 4 2 4 . 2 . 1 . 3 XF EL:TH EX- RA YFR E EEL E C T R O NLA S E R. 4 4 4 . 2 . 2 BE A MAMP L I TH C A T I O NB YI N S E R T I O NDE V I C E S. 4 6 4 . 2 . 3 BE A MS H A P I N GB YOP T I C A L DE V I C E S. 4 6 4 . 2 . 3 . 1 TH EGOE B E L MI R R O R . 4 6 4.2.3.2 CONVENTIONAL SYNCHROTRON BEAMLINE OPTICS . . . 47 4.2.3.3 MICROBEAM OPTICS (WAVE-GUIDES, X-RAY LENSES) 47 4.2.3.4 NANOBEAM OPTICS (KIRKPATRICK-BAEZ MIRRORS) . . 48 4.2.3.5 BEAM-POSITION MONITORING . 5 0 LISTS OF SYMBOLS AND ABBREVIATIONS XVII 4 . 2 . 3 . 6 S H U T T E R S . 5 0 4.2.3.7 SLITS . . . . 5 0 4 . 2 . 3 . 8 S T A B I L I Z E R S . 5 1 4 . 2 . 3 . 9 AB S O R B E R S . 5 1 4 . 2 . 4 TH ES A MP L ERE C I P I E N T . 5 1 4 . 2 . 4 . 1 OP T I C A L BE N C HVS . DA N C EF L O O R . 5 2 4 . 2 . 4 . 2 CH A MB E R SF O RS A MP L EP O S I T I O N I N G. 5 2 4 . 2 . 4 . 3 RE C I P I E N T SF O RS A MP L EP R O C E S S I N G. 5 3 4 . 2 . 5 DE T E C T O R S . 5 3 4 . 2 . 5 . 1 CR I T E R I AF O RDE T E C T O R P E R F O R MA N C E. 5 3 4 . 2 . 5 . 2 CCDDE T E C T O R S. 5 4 4 . 2 . 5 . 3 I MA G EP L A T E S. 5 5 4.2.5.4 GAS-FILLED DETECTORS . . . . 5 6 4 . 2 . 5 . 5 OT H E RX- RA YDE T E C T O R S . 5 7 4 . 2 . 5 . 6 DE T E C T O ROP E R A T I O NMO D E : BI N N I N G. 5 8 4 . 2 . 6 EX P E R I ME N T MO N I T O R S. 5 8 4 . 2 . 6 . 1 MO N I T O R I N G , J O U R N A L I N G , CO N T R O L. 5 8 4 . 2 . 6 . 2 BE A MI N T E N S I T YMO N I T O R I N G . 5 9 4 . 3 DA T AAC Q U I S I T I O N , EX P E R I ME N T CO N T R O L A N DI T SPR I N C I P L E S . 5 9 4 . 3 . 1 VO L T A G E - T O - F R E Q U E N C YCO N V E R S I O N( VF C) . 5 9 4.3.2 UNIX AND THE COMMUNICATION AMONG ACQUISITION MODULES 61 5 ACQUISITION OF SYNCHROTRON BEAMTIME 63 5 . 1 T E S TME A S U R E ME N T S . 6 3 5.2 SUPPORT OR COLLABORATION . . . 6 3 5.3 A GUIDE TO PROPOSAL WRITING . 6 4 6 IT'S BEAMTIME, PHIL: A GUIDE TO COLLECT A COMPLETE SET OF DATA 67 6 . 1 BEOR G A N I Z E D . 6 7 6 . 2 VE R YI MP O R T A N T : DA T AFI L ECH E C K. 6 7 6 . 3 NE V E R S T O R ET E S TS N A P S H O T SF R O MDE T E C T O RME MO R Y. 6 8 6 . 4 T OBECO L L E C T E DBE F O R ET H EF I R S TEX P E R I ME N T. 6 8 6 . 4 . 1 ME A S U R E ME N T O FT H ES A MP L E - DE T E C T O R DI S T A N C E . 6 9 6.4.2 MEASUREMENT OF THE DETECTOR RESPONSE . . . . . . 6 9 6 . 4 . 3 ME A S U R E ME N T O FT H EP R I MA R YBE A MPR O TH L E. 6 9 6 . 5 T OBECO L L E C T E DF O REA C HNE WRU N. 6 9 6 . 6 AD J U S T ME N T SWI T HEA C HEX P E R I ME N T . 7 0 6 . 7 CO L L E C T GO O DDA T A . 7 0 6 . 8 T OBECO L L E C T E DWI T HEA C HSC A T T E R I N GP A T T E R N . 7 1 7 PRE-EVALUATION OF SCATTERING DATA 73 7 . 1 RE A D I N GT H ES C A T T E R I N GDA T AF I L E S. 7 4 7.2 ASSESSMENT OF SAXS MULTIPLE SCATTERING . . 7 4 7 . 3 NO R MA L I Z A T I O N. 7 5 7 . 4 VA L I DAR E AMA S K I N G. 7 5 XVIII 7 . 5 AL I G N ME N T. 7 6 7.6 ABSORPTION AND BACKGROUND CORRECTION . . . . 7 6 7 . 6 . 1 AB S O R P T I O NT H EP R I N C I P L E . 7 7 7 . 6 . 2 AB S O R P T I O NI NNO R MA L - TR A N S MI S S I O NGE O ME T R Y . 7 7 7 . 6 . 3 AB S O R P T I O NI NRE SS E C T I O NGE O ME T R I E S. 8 0 7.6.3.1 THIN SAMPLES IN SYMMETRICAL-RESSECTION GEOMETRY 81 7.6.3.2 THIN SAMPLES IN ASYMMETRICAL-RESSECTION GEOM- E T R Y. 8 2 7.6.4 CALCULATIONS: ABSORPTION FACTOR, OPTIMUM SAMPLE THICKNESS 83 7 . 6 . 5 RE F R A C T I O NCO R R E C T I O N. 8 4 7.7 RECONSTRUCTION OF PROPER CONSTITUTION . . . . . 8 5 7 . 8 CO N V E R S I O NT ORE C I P R O C A L S P A C EUN I T S . 8 5 7 . 8 . 1 I S O T R O P I CS C A T T E R I N G. 8 5 7 . 8 . 2 AN I S O T R O P I CS C A T T E R I N G . 8 5 7 . 8 . 2 . 1 US AXSAN DSAXS . 8 5 7 . 8 . 2 . 2 MAXSAN DWAXSWI T HFI B E RS Y MME T R Y. 8 5 7.8.2.3 MAXS AND WAXS WITHOUT FIBER SYMMETRY . . . 85 7 . 9 HA R MO N Y . 8 6 7 . 1 0CA L I B R A T I O NT OAB S O L U T ES C A T T E R I N GI N T E N S I T Y . 8 6 7 . 1 0 . 1 TH EUN I T SO FAB S O L U T ES C A T T E R I N GI N T E N S I T Y. 8 6 7 . 1 0 . 2 AB S O L U T EI N T E N S I T YI NSAXS . 8 7 7 . 1 0 . 2 . 1 TH EI D E AO FDI R E C T CA L I B R A T I O N. 8 7 7 . 1 0 . 2 . 2 DI R E C TCA L I B R A T I O NF O R T H EKR A T K YCA ME R A. 8 8 7.10.2.3 DIRECT CALIBRATION FOR A SYNCHROTRON BEAMLINE . . 90 7.10.2.4 INDIRECT CALIBRATION USING A POLYMER SAMPLE . . . 91 7 . 1 0 . 2 . 5 I N D I R E C T CA L I B R A T I O NBYF L U I DST A N D A R D S. 9 2 7 . 1 0 . 3 ALI N KT OAB S O L U T EI N T E N S I T YI NWAXS . 9 2 8 INTERPRETATION OF SCATTERING PATTERNS 95 8 . 1 S H A P EO FT H ES C A T T E R I N GI N T E N S I T YATVE R YS MA L LAN G L E S . 9 5 8.1.1 G UINIER ' SA P P R O X I MA T I O N . 9 5 8.1.2 USABILITY FOR DATA EXTRAPOLATION . . . . 9 6 8.1.3 USABILITY FOR STRUCTURE PARAMETER DETERMINATION . . . 9 6 8.1.4 DETERMINATION OF THE PARAMETERS OF G UINIER ' SL A W. 9 6 8.1.5 MEANING OF THE PARAMETERS OF G UINIER ' SLA W . 9 7 8 . 2 P E A KSP O T T I N G : WAXSRE SS E C T I O N S , LO N GP E R I O D S . 9 9 8 . 2 . 1 DI S C R E T EA N DDI F F U S ES C A T T E R I N G . 9 9 8.2.2 PEAKS IN ISOTROPIC AND ANISOTROPIC SCATTERING PATTERNS . . . 99 8 . 2 . 2 . 1 I S O T R O P YA N DAN I S O T R O P Y. 9 9 8 . 2 . 2 . 2 WH E R ET OSE A R C HF O RP E A K SO FF I B E R S . 1 0 0 8 . 2 . 3 WAXSPE A K SA N DP E A KPO S I T I O N S. 1 0 0 8.2.4 DETERMINATION OF WAXS CRYSTALLINITY . 1 0 2 8 . 2 . 4 . 1 P H E N O ME N O N. 1 0 2 8.2.4.2 CRYSTALLINITY INDEX . . . . . . 1 0 3 8.2.4.3 WAXS CRYSTALLINITY FOR UNDISTORTED CRYSTALS . . . 103 LISTS OF SYMBOLS AND ABBREVIATIONS XIX 8.2.4.4 WAXS CRYSTALLINITY CONSIDERING DISTORTIONS . . . 104 8 . 2 . 5 WAXSLI N EP R O TH L EAN A L Y S I S. 1 0 4 8 . 2 . 5 . 1 EX P E R I ME N T A L T E C H N I Q U E. 1 0 4 8.2.5.2 SCIENTITHC GOALS OF LINE PROTHLE ANALYSIS . . . . . 104 8 . 2 . 5 . 3 I N S T R U ME N T A L BR O A D E N I N G . 1 0 6 8.2.5.4 CRYSTAL SIZE AND LATTICE DISTORTION SEPARABILITY 106 8.2.5.5 SEPARATION ACCORDING TO W ARREN -A VERBACH . 107 8.2.5.6 MATCHING LATTICE DISTORTIONS AND STRUCTURAL MODELS 109 8.2.5.7 CLASSICAL W ARREN -A VERBACH SEPARATION . . . . 110 8 . 2 . 5 . 8 S E P A R A T I O NAF T E RP E A KSH A P EMO D E L I N G. 1 1 4 8 . 2 . 6 P E A K SI NSAXSPA T T E R N S . 1 1 7 8 . 3 NOPE A K S : TH EI N T E R P R E T A T I O NO FDI F F U S ES C A T T E R I N G. 1 1 8 8.3.1 INTENSITY LEVEL BETWEEN SAXS AND WAXS: ELECTRON DENSITY F L U C T U A T I O N S. 1 1 9 8.3.2 INTENSITY DECAY BETWEEN SAXS AND WAXS: P OROD 'S LAW 121 8 . 3 . 3 S AXS :F R A C T A LS T R U C T U R E . 1 2 7 8 . 4 GE N E R A L EV A L U A T I O NB YI N T E G R A T I O NO FS C A T T E R I N GDA T A . 1 2 9 8.4.1 AZIMUTHAL AVERAGING OF ISOTROPIC SCATTERING PATTERNS . . . . 129 8 . 4 . 2 I S O T R O P I Z A T I O NO FAN I S O T R O P I CS C A T T E R I N GP A T T E R N S . 1 3 0 8 . 4 . 3 S AXSPR O J E C T I O N S . 1 3 2 8 . 4 . 3 . 1 S C A T T E R I N GP O WE R( I N V A R I A N T ). 1 3 2 8 . 4 . 3 . 2 1 DP R O J E C T I O N S. 1 3 5 8 . 4 . 3 . 3 2 DP R O J E C T I O N S. 1 3 8 8.5 VISUALIZATION OF DOMAIN TOPOLOGY FROM SAXS DATA . . . 1 3 8 8.5.1 EXTRACTION OF THE TOPOLOGICAL INFORMATION . . . . . 1 3 9 8 . 5 . 2 1 DCO R R E L A T I O NF U N C T I O NAN A L Y S I S . 1 4 2 8 . 5 . 3 I S O T R O P I CCH O R DLE N G T HDI S T R I B U T I O N S( CLD) . 1 4 8 8 . 5 . 4 1 DIN T E R F A C EDI S T R I B U T I O NFU N C T I O N S( I DF ). 1 5 0 8 . 5 . 5 AN I S O T R O P I CCH O R DDI S T R I B U T I O NFU N C T I O N S( CDF ) . 1 5 2 8.5.5.1 DETHNITION . 1 5 2 8.5.5.2 COMPUTATION OF THE CDF FOR MATERIALS WITH FIBER S Y MME T R Y . 1 5 3 8 . 5 . 5 . 3 RE L A T I O NBE T WE E NACDFAN DI DF S . 1 5 4 8 . 5 . 5 . 4 HO WT OI N T E R P R E T ACDF. 1 5 5 8.5.5.5 SEMI-QUANTITATIVE CDF ANALYSIS. AN EXAMPLE . . 157 8.6 BIOPOLYMERS: ISOTROPIC SCATTERING OF IDENTICAL UNCORRELATED PARTICLES 161 8.7 QUANTITATIVE ANALYSIS OF MULTIPHASE TOPOLOGY FROM SAXS DATA . . 163 8 . 7 . 1 MO D E L SF O RUN C O R R E L A T E DP O L Y D I S P E R S EP A R T I C L E S. 1 6 4 8 . 7 . 1 . 1 P O L Y D I S P E R S ELA Y E R SA N D1DP A R T I C L E S. 1 6 4 8.7.1.2 UNCORRELATED PARTICLES IN 2D: FIBRIL DIAMETERS IN F I B E R S . 1 6 5 8.7.1.3 UNCORRELATED POLYDISPERSE HOMOGENEOUS SPHERES 169 8.7.1.4 INHOMOGENEOUS SPHERICAL PARTICLES . . . 1 7 0 8.7.2 STOCHASTICALLY CONDENSED STRUCTURE . 1 7 1 8 . 7 . 3 DI S T O R T E DST R U C T U R EB YI N TH N I T E1 DAR R A N G E ME N T. 1 7 5 XX 8 . 7 . 3 . 1 CO N S T R U C T I O NO FA1DP A R A C R Y S T A L . 1 7 5 8 . 7 . 3 . 2 AP P L I C A T I O N . 1 7 6 8 . 7 . 3 . 3 TH ES T A C K I N GMO D E L. 1 7 8 8.7.3.4 THE LATTICE MODEL . . . . . . 1 8 2 8.7.3.5 MODEL FITTING: CHOICE OF STARTING VALUES FOR THE MO D E L P A R A ME T E R S. 1 8 4 8 . 8 NA N O S T R U C T U R E SSO F T MA T E R I A L SWI T HLO N GRA N G EOR D E R . 1 8 5 8 . 8 . 1 RE Q U I R E DCO R R E C T I O N SO FT H ES C A T T E R I N GI N T E N S I T Y. 1 8 5 8.8.2 I 1 ( S ) F R O MANA N O S T R U C T U R E DLA Y E RS Y S T E M . 1 8 6 8 . 8 . 3 T Y P I C A L RE S U L T S. 1 8 7 8 . 9 AN O MA L O U SX- RA YSC A T T E R I N G. 1 8 8 9 HIGH BUT IMPERFECT ORIENTATION 191 9 . 1 BA S I CDE TH N I T I O N SCO N C E R N I N GOR I E N T A T I O N . 1 9 2 9 . 1 . 1 P O L EF I G U R E SA N DTH E I REX P A N S I O N. 1 9 2 9.1.2 THE UNIAXIAL ORIENTATION PARAMETER F OR . 1 9 4 9.1.3 CHARACTER OF FIBER-SYMMETRICAL ORIENTATION DISTRIBUTIONS . 196 9 . 2 OB S E R V E DI N T E N S I T YA N DOR I E N T E DI N T E N S I T YTH ERE L A T I O N. 1 9 7 9 . 3 DE S ME A R I N GB YUS EOFAMA S T E ROR I E N T A T I O NDI S T R I B U T I O N . 1 9 7 9.4 F2: DOUBLE FIBER SYMMETRY * SIMPLITHED INTEGRAL TRANSFORM . 1 9 8 9.5 F3: G ( * ) S H O WSF I B E RS Y MME T R YSO L U T I O N. 2 0 0 9.6 EXTRACTION OF G ( ) FROM MERIDIONAL OR EQUATORIAL RESSECTIONS . . . 200 9 . 6 . 1 UN I MO D A L ME R I D I O N A L RE SS E C T I O NI N T E N S I T Y. 2 0 0 9 . 6 . 2 UN I MO D A L EQ U A T O R I A L RE SS E C T I O NI N T E N S I T Y . 2 0 1 9 . 7 TH ERU L A N DST R E A KME T H O D. 2 0 1 9.8 ANALYTICAL FUNCTIONS WRAPPED AROUND SPHERES: SHAPE CHANGE . . . 205 10 ORIENTATION GROWING FROM THE ISOTROPIC STATE 209 10.1 R ULAND ' STH E O R YO FAF TH N EDE F O R MA T I O N . 2 1 0 1 0 . 1 . 1 OV E R V I E W. 2 1 0 1 0 . 1 . 2 AP P L I C A T I O N. 2 1 1 10.2 THE MGZ TECHNIQUE OF ELLIPTICAL COORDINATES . 2 1 3 11 FITTING MODELS TO DATA 217 11.1 WHICH DATA ARE FITTED? . . 2 1 7 1 1 . 2WH I C HTE C H N I Q U E SAR EAP P L I E D ?. 2 1 8 REFERENCES 221 SUBJECT INDEX 229
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spelling	Stribeck, Norbert Verfasser aut X-ray scattering of soft matter Norbert Stribeck Berlin [u.a.] Springer 2007 XX, 238 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Springer laboratory manuals in polymer science Matière molle (Physique) Rayons X - Diffusion Soft condensed matter X-rays Scattering Röntgenstreuung (DE-588)4178324-4 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Weiche Materie (DE-588)4609142-7 gnd rswk-swf Weiche Materie (DE-588)4609142-7 s Röntgenstreuung (DE-588)4178324-4 s DE-604 Polymere (DE-588)4046699-1 s b DE-604 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2904581&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015596522&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Stribeck, Norbert X-ray scattering of soft matter Matière molle (Physique) Rayons X - Diffusion Soft condensed matter X-rays Scattering Röntgenstreuung (DE-588)4178324-4 gnd Polymere (DE-588)4046699-1 gnd Weiche Materie (DE-588)4609142-7 gnd
subject_GND	(DE-588)4178324-4 (DE-588)4046699-1 (DE-588)4609142-7
title	X-ray scattering of soft matter
title_auth	X-ray scattering of soft matter
title_exact_search	X-ray scattering of soft matter
title_exact_search_txtP	X-ray scattering of soft matter
title_full	X-ray scattering of soft matter Norbert Stribeck
title_fullStr	X-ray scattering of soft matter Norbert Stribeck
title_full_unstemmed	X-ray scattering of soft matter Norbert Stribeck
title_short	X-ray scattering of soft matter
title_sort	x ray scattering of soft matter
topic	Matière molle (Physique) Rayons X - Diffusion Soft condensed matter X-rays Scattering Röntgenstreuung (DE-588)4178324-4 gnd Polymere (DE-588)4046699-1 gnd Weiche Materie (DE-588)4609142-7 gnd
topic_facet	Matière molle (Physique) Rayons X - Diffusion Soft condensed matter X-rays Scattering Röntgenstreuung Polymere Weiche Materie
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