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Results for DC.creator="R." AND DC.creator="Kleeberg" in section 3.9.5 of volume H |
Experiment constant - a whole-sample approach
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.3, pp. 355-356 [ doi:10.1107/97809553602060000954 ]
Experiment constant - a whole-sample approach 3.9.5.3. Experiment constant - a whole-sample approach Earlier discussion has noted that the experiment constant K used in equation (3.9.21) can be determined using (i) a standard pure phase or mixture measured separately from the measurement of the actual unknown mixture being analysed, or (ii ...
Demonstration of the Zevin approach
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.2, pp. 354-355 [ doi:10.1107/97809553602060000954 ]
Demonstration of the Zevin approach 3.9.5.2. Demonstration of the Zevin approach The sample 1 suite from the IUCr CPD round robin on QPA again provides an ideal platform for demonstrating the applicability of this method due to the wide variation of concentration of the constituent phases. A measure of intensity was ...
Standardless determination of the phase constant C
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.1, pp. 353-354 [ doi:10.1107/97809553602060000954 ]
Standardless determination of the phase constant C 3.9.5.1. Standardless determination of the phase constant C In order to determine the phase calibration constant C, it is common to obtain (i) a pure sample of the phase of interest that accurately reflects the form of the phase in the samples to be ...
Alternative methods for determination of calibration constants
International Tables for Crystallography (2019). Vol. H, Section 3.9.5, pp. 353-356 [ doi:10.1107/97809553602060000954 ]
Alternative methods for determination of calibration constants 3.9.5. Alternative methods for determination of calibration constants 3.9.5.1. Standardless determination of the phase constant C | | In order to determine the phase calibration constant C, it is common to obtain (i) a pure sample of the phase of interest that accurately reflects the form ...
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.3, pp. 355-356 [ doi:10.1107/97809553602060000954 ]
Experiment constant - a whole-sample approach 3.9.5.3. Experiment constant - a whole-sample approach Earlier discussion has noted that the experiment constant K used in equation (3.9.21) can be determined using (i) a standard pure phase or mixture measured separately from the measurement of the actual unknown mixture being analysed, or (ii ...
Demonstration of the Zevin approach
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.2, pp. 354-355 [ doi:10.1107/97809553602060000954 ]
Demonstration of the Zevin approach 3.9.5.2. Demonstration of the Zevin approach The sample 1 suite from the IUCr CPD round robin on QPA again provides an ideal platform for demonstrating the applicability of this method due to the wide variation of concentration of the constituent phases. A measure of intensity was ...
Standardless determination of the phase constant C
International Tables for Crystallography (2019). Vol. H, Section 3.9.5.1, pp. 353-354 [ doi:10.1107/97809553602060000954 ]
Standardless determination of the phase constant C 3.9.5.1. Standardless determination of the phase constant C In order to determine the phase calibration constant C, it is common to obtain (i) a pure sample of the phase of interest that accurately reflects the form of the phase in the samples to be ...
Alternative methods for determination of calibration constants
International Tables for Crystallography (2019). Vol. H, Section 3.9.5, pp. 353-356 [ doi:10.1107/97809553602060000954 ]
Alternative methods for determination of calibration constants 3.9.5. Alternative methods for determination of calibration constants 3.9.5.1. Standardless determination of the phase constant C | | In order to determine the phase calibration constant C, it is common to obtain (i) a pure sample of the phase of interest that accurately reflects the form ...
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