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Difference Patterson functions at 3 or 4 wavelengths
The "lambda technique" as an approach to the phase problems
-
Karl F. Fischer
Published/Copyright:
September 18, 2015
Online erschienen: 2015-9-18
Erschienen im Druck: 1987-10-1
© 2014 Oldenbourg Wissenschaftsverlag GmbH, Rosenheimer Str. 145, 81671 München
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Articles in the same Issue
- Masthead
- Contents
- Martin Julian Buerger 1903-1986
- The non-characteristic C-orbits of the plane groups C
- On 3-periodic minimal surfaces
- A topological characterisation of chemical structures
- The topology of crystal structures: Invariants
- Difference Patterson functions at 3 or 4 wavelengths
- GREEDY
- 1-Phase seminvariants and Harker sections
- Translation functions for the positioning of a well oriented molecular fragment
- Advantages of synchrotron radiation for polycrystalline diffractometry
- An application of a symbolism for different description of the Cu4Cd3 structure type
- On the bindings in FeSiM, CoSiM, and NiSiM phases
- The effect of non-bonded, anion-anion interactions on the CaCl2/rutile transformation and on the bond lengths in the rutile type
- Distribution of interatomic distances in solid solutions of the NaCl type
- Structural morphology of gallium
- On the α — β-phase transitions of the alkali carbonates
- Biaxiality in nematic liquid crystals
- Structure and physical properties of orthorhombic guanidinium phthalate, [CN3H6]2C8H4O4, and guanidinium hydrogen L-aspartate, [CN3H6]C4H6NO4
- Neutron powder diffraction study and physical characterization of zeolite D-RHO shallow-bed calcined at 773 Κ and 873 Κ
- Neutron diffraction study of zoisite at 15 Κ and X-ray study at room temperature
- The crystal structure of the new mineral richelsdorfite, Ca2Cu5Sb(Cl/(OH)6/(AsO4)4)·6H2O
- Crystal structure refinement and electron microscopy of arsenopyrite
- Syntheses and crystal structures of (Ag4XO4)2·AgNO3(X = Si, Ge)
- Crystal structure of [N(n-C4H9)4]H7[Si8O20]·5.33H2O — a zeolite Α-like double-ring silicate with protonated water clusters [H41O16]9+
- S—H...S Hydrogen bridges: The crystal structure of a new modification of trithiocarbonic acid
- Reactions of wollastonite and xonotlite with NH4H2PO4 and H3PO4
- Crystal structure of 1 -phenylamino-3-mercapto-6,7-tetramethylene-thieno[2,3-D] pyrimidine betaine, C16H15N3S2
- Structure of α-quartz as a function of temperature and pressure
- Crystal structure of monoclinic ilvaite and the nature of the monoclinic-orthorhombic transition at high pressure
- The crystal structure of the natrochalcite-type compounds Me+Cu2(OH)(zO4)2·H2O [Me+ = Na, K, Rb; z = S, Se], with special reference to the hydrogen bonds
- Ruthenium(III)triphosphide RuP3: Preparation, crystal structure and properties
- Autorenregister zu Band 179
- Sachregister zu Band 179
- Instructions to Contributors
- Depositing procedure
Articles in the same Issue
- Masthead
- Contents
- Martin Julian Buerger 1903-1986
- The non-characteristic C-orbits of the plane groups C
- On 3-periodic minimal surfaces
- A topological characterisation of chemical structures
- The topology of crystal structures: Invariants
- Difference Patterson functions at 3 or 4 wavelengths
- GREEDY
- 1-Phase seminvariants and Harker sections
- Translation functions for the positioning of a well oriented molecular fragment
- Advantages of synchrotron radiation for polycrystalline diffractometry
- An application of a symbolism for different description of the Cu4Cd3 structure type
- On the bindings in FeSiM, CoSiM, and NiSiM phases
- The effect of non-bonded, anion-anion interactions on the CaCl2/rutile transformation and on the bond lengths in the rutile type
- Distribution of interatomic distances in solid solutions of the NaCl type
- Structural morphology of gallium
- On the α — β-phase transitions of the alkali carbonates
- Biaxiality in nematic liquid crystals
- Structure and physical properties of orthorhombic guanidinium phthalate, [CN3H6]2C8H4O4, and guanidinium hydrogen L-aspartate, [CN3H6]C4H6NO4
- Neutron powder diffraction study and physical characterization of zeolite D-RHO shallow-bed calcined at 773 Κ and 873 Κ
- Neutron diffraction study of zoisite at 15 Κ and X-ray study at room temperature
- The crystal structure of the new mineral richelsdorfite, Ca2Cu5Sb(Cl/(OH)6/(AsO4)4)·6H2O
- Crystal structure refinement and electron microscopy of arsenopyrite
- Syntheses and crystal structures of (Ag4XO4)2·AgNO3(X = Si, Ge)
- Crystal structure of [N(n-C4H9)4]H7[Si8O20]·5.33H2O — a zeolite Α-like double-ring silicate with protonated water clusters [H41O16]9+
- S—H...S Hydrogen bridges: The crystal structure of a new modification of trithiocarbonic acid
- Reactions of wollastonite and xonotlite with NH4H2PO4 and H3PO4
- Crystal structure of 1 -phenylamino-3-mercapto-6,7-tetramethylene-thieno[2,3-D] pyrimidine betaine, C16H15N3S2
- Structure of α-quartz as a function of temperature and pressure
- Crystal structure of monoclinic ilvaite and the nature of the monoclinic-orthorhombic transition at high pressure
- The crystal structure of the natrochalcite-type compounds Me+Cu2(OH)(zO4)2·H2O [Me+ = Na, K, Rb; z = S, Se], with special reference to the hydrogen bonds
- Ruthenium(III)triphosphide RuP3: Preparation, crystal structure and properties
- Autorenregister zu Band 179
- Sachregister zu Band 179
- Instructions to Contributors
- Depositing procedure
