My image of RIETAN-2000 is a white dewy flower of lotus floating quiet on a muddy pond evolving poisonous air.
This is the reason why the present page has a background of pure white.
- Distribution of RIETAN-2000
- License agreement
- What can you do with RIETAN-2000?
- Tink different.
- Nontraditional approach to structure refinement: MEM-based pattern fitting
- Partial profile relaxation
- Supported platforms
- Archivers and text editors
- Version history
- Archive files for the RIETAN-2000 package
- Fortran compilers
- Template files
- Auxiliary software
- PDF documents, articles, and books
- Known problems
- Feedback and suggestions
- Information obtainable from other Web sites
I am proud to announce that a versatile pattern-fitting system, RIETAN-2000, for angle-dispersive X-ray and neutron powder diffraction was released on August 1, 2000 and is now available for download. It is a descendant of RIETAN-94/97beta, working on multiple architectures. Numerous new features were injected into RIETAN-94 to change it into a heavy-duty pattern-fitting system of high performance.
The major upgrade of RIETAN-2000 underlines my continued commitment to the powder diffraction community and my intent to further push the limits in structure refinement by powder diffraction.
RIETAN-2000 resulted from our struggle for more than three years, which were necessary to develop and polish up it. I apologize to users of RIETAN-94 and RIETAN-97beta for the long delay in releasing it.
RIETAN-2000 is currently copyrighted but distributed free of charge with its source code not open to the public; we wish to control the development and future of RIETAN by ourselves.
Whenever original results acquired with RIETAN-2000 are published in journals, proceedings, facility reports, etc. or reported in scientific meetings with abstracts, the program name "RIETAN-2000" should explicitly be stated. Furthermore, cite the following paper:
Note that "321-324" is volume numbers while "198-203" is the range of pages. Only giving credit to RIETAN-2000 for Rietveld or Le Bail analysis is fine in the cases of abstracts, short reports, and so forth with limited spaces, e.g., as follows:
Structure parameters of CaTiO3 were refined by the Rietveld method from the X-ray diffraction data with RIETAN-2000.
Although RIETAN-2000 has exhaustively been tested with intensity data of many compounds, it may still contain a fair number of bugs. RIETAN-2000 is distributed in the hope that it will be useful and reliable. It is, however, provided "as is'' without any warranty since I have a number of commitments on my time. There is no charge for the program, per se, whereas technical service concerning it is not free.
RIETAN-2000 is a software package applicable to the following five purposes:
In pattern fitting 2-5, a premier and robust engine for nonlinear least squares by Gauss-Newton, Fletcher's modified Marquardt, and Powell's conjugate-direction methods can be utilized, permitting stable convergence in most refinements. The use of the conjugate-direction method, also known as the direction set method in multi-dimensions, often makes it possible to escape from local minima easily and automatically. It is relatively slow but excels at analyzing complex structures such as organic compounds and micro-porous materials in final stages.
Since the Rietveld method is now very popular, it is unnecessary to explain it here. Refer to the following books if necessary:
The Le Bail method provides the opportunity for estimation of integrated intensities in the absence of any structural model with a simple procedure proposed by Rietveld. The resulting integrated intensities serve for ab initio structure analysis by the heavy-atom (Patterson), direct, and Monte Carlo methods. RIETAN-2000 is capable of outputting files for (1) improving integrated intensities for overlapping reflections and determining three-dimensional Patterson functions by the maximum-entropy Patterson method with ALBA and (2) construction of structural models with EXPO2004. To refine lattice parameters, this method excels the Rietveld method when the effect of preferred orientation or coarse particles is pronounced. This is a newborn function that needs to be tested and improved further. Nevertheless, we confirmed that RIETAN-2000 usually yield lower R factors than EXPO2004. Our first application of the Le Bail method to the ab initio structure analysis of HLS was reported in:
MEM-based Pattern Fitting, which will be abbreviated to MPF here, will be described briefly in Sect. 5.
Individual profile fitting deals with intensity data within a limited 2θ range. No constraints are imposed upon peak positions and integrated intensities of reflections in that range. Both of them are directly refined by a method of nonlinear least squares together with profile parameters.
The RIETAN-2000 package also includes ORFFE for calculating geometric structure parameters such as interatomic distances and bond angles:
In addition, it serves to impose restraints on geometric structure parameters in Rietveld refinements of compounds containing many atoms in their asymmetric units.
Other improvements in RIETAN-2000 are listed below:
With all of these new functions and capabilities, RIETAN-2000 delivers superior application performance on the four pattern-fitting methods. I am confident that it will contribute fruitful results toward the completion of creative scientific work.
In the above title, 'Tink' (not 'Think' but 'Tink') should be regarded as a verb. I have found mouse-driven Graphical User Interface (GUI) to be even slower and more unwieldy to use for power users. I will, therefore, never adopt a GUI for RIETAN-2000. Instead, a powerful preprocessor called Tink was implemented as antithesis to the GUI. Tink converts *.ins, which is sufficiently self-explanatory, into a scratch file that contains only integer-, real-, and character-type variables input and dealt with actually by RIETAN-2000.
Tink was upgraded to New Tink for input files (*.ins) in RIETAN-2000. With New Tink, a straightforward and flat Character User Interface (CUI) has been realized. You can shortly learn how to use it. You must be deeply impressed at the resulting CUI, particularly, Fortran 77-like If, else, end if, and else if blocks, which may include parameters to calculate the model function. The unique method of inputting data is now a kind of a cultural heritage for RIETAN users.
RIETAN-2000 offers a state-of-the-art structure-refinement technique alternative to the classical Rietveld method: MEM-based Pattern Fitting (MPF).
The revolutionary MPF technology was implemented in RIETAN-2000 to overcome limitations of Rietveld analysis. RIETAN-2000 is distinguished from other programs for classical Rietveld analysis by this elegant methodology. In MPF, PRIMA is required for MEM analysis in addition to RIETAN-2000. PRIMA is distributed as a part of the VENUS system. Whole-pattern fitting and MEM analysis are alternately repeated in an iterative procedure called REMEDY cycles, where the bias imposed by a structural model upon final electron/nuclear densities is minimized. The total number of electrons (X-ray diffraction) or the total coherent-scattering lengths (neutron diffraction) in the unit cell is fixed at that input by the user during the REMEDY cycles. Electron/nuclear-density distribution changes noticeably with dramatic decreases in RB and RF during the REMEDY cycles, which is a strong piece of evidence for the reduction in the bias of the structural model.
The so-called MEM/Rietveld method necessarily suffers from errors due to the above bias because it simply deals with one set of 'observed' structure factors estimated on the basis of final profile and structure parameters determined by Rietveld analysis. Even if the structural model in the Rietveld analysis is essentially correct, chemical bonding cannot perfectly be represented only with structure parameters such as fractional coordinates and atomic displacement parameters. This is a reason why D syntheses are performed in studies of electron densities by single-crystal X-ray diffraction. Refinement of isotropic atomic displacement parameters in Rietveld analysis (anisotropic atomic displacement parameters cannot practically be refined even from synchrotron X-ray powder diffraction data) lowers the accuracy of the 'observed' structure factors. In addition, standard deviations of the 'observed' structure factors are estimated with an equation containing calculated structure factors, which gives a further bias toward the structural model in Rietveld analysis.
In conclusion, MEM is, per se, model-free whereas the MEM/Rietveld method is more or less model-dependent. The MEM/Rietveld method should never be confounded with MEM. Electron/nuclear densities can be determined only semiquantitatively with the MEM/Rietveld method. This expedient method is, therefore, unsound on its application to determination of electron/nuclear-density distribution though it is certainly effective for rough visualization of electron/nuclear densities.
I agree that the MEM/Rietveld method is more effective in modifying imperfect structural models than Fourier/D synthesis thanks to higher S/N ratios and non-negative densities obtained by MEM. However, it cannot give accurate electron/nuclear densities particularly when reflection overlap is serious because of low symmetry and insufficient instrumental resolution. Frankly speaking, the MEM/Rietveld method is nothing but iterative conventional Rietveld refinements where structural models are modified, if necessary, after visualizing electron/nuclear densities by MEM.
In our more sophisticated structure-refinement technique, the REMEDY cycles partially overcome the defect in the MEM/Rietveld method, and crystal structures are represented with three-dimensional electron/nuclear densities within the unit cell. In other words, powder diffraction data are visualized by MEM with high S/N ratios like HRTEM images. This method is, hence, capable of modeling disordered atomic arrangements, chemical bonds, nonlocalized electrons, and anharmonic thermal motion more adequately than the conventional Rietveld method, where crystal structures are expressed with structure parameters such as fractional coordinates, occupation factors, and isotropic/anisotropic atomic displacement parameters. I hope that the appearance of the free software, RIETAN-2000 as well as the 3D visualization system VENUS, will give incentives to study electron/nuclear-density distribution in a variety of compounds.
Applications of MPF to synchrotron X-ray powder diffraction data as well as my severe criticism again the MEM/Rietveld method have recently been presented in:
A very high level of goodness-of-fit, S, less than, say, 1.3 is indispensable to MPF and Le Bail refinement to derive integrated intensities for ab initio structure analysis.
Introduction of our original technique called partial profile relaxation into MPF more or less improves fits between observed and calculated intensities, particularly when coping with extremely asymmetric reflections in low-angle regions below 20 degrees. In addition, the finesse of profile relaxation enables us to analyze intensity data measured with a variety of geometries using characteristic X-ray, synchrotron radiation (SR), and neutron beams flexibly and simply using one of split profile functions implemented in RIETAN-2000.
Partial profile relaxation is introducible into Le Bail and Rietveld refinements, and MPF, where you will enjoy pronounced drops in R factors. The idea of profile relaxation is simple, but its effect is amazing!
The following operating systems are currently supported: Mac OS X, Microsoft Windows 98/Me/NT/2000/XP (hereafter abbreviated to Windows), and Linux.
RIETAN-2000 for Mac OS X is a Terminal (console) application for Darwin (= UNIX), which means that all the text files used when running it should have the UNIX format (end-of-line character: LF). A Carbon application is no longer distributed because it is slow in calculating.
RIETAN-2000 may run just fine on Windows 98/Me. Nevertheless, Windows NT/2000/XP is preferred to Windows 98/Me for decent performance. Windows NT/2000/XP is robust, supporting the Command Prompt that is much inferior to various shells in UNIX but not so bad. On the other hand, Windows 98 and, particularly, Windows Me have some serious problems including the absence of memory protection, memory leak, and MS-DOS Prompt of less features.
The Windows version is currently optimized for Pentium processors. Be careful not to run it on a PC equipped with a 80486 processor (obsolete!).
A couple of elaborate and cool batch files, DD.bat and DD2.bat, are supplied for Windows NT/2000/XP. They serve to learn how to combine two or more programs on Windows, respectively. One Fortran program and two short scripts written in VBScript are further called in DD.bat and DD2.bat. DD.bat and DD2.bat are much more convenient than another simpler batch file, RIETAN-2000.bat, for Windows 98/Me.
A distribution file for the Windows version described in Sect. 10 has been compressed in the tbz format. Prior to installing it, download one of archivers described below if necessary.
For Japanese, representative free archivers for the tbz format are:
None of them use DLLs. Those who cannot read Japanese may use the following program:
Text editors are indispensable to editing input files (*.ins). They also serve to browse/print outputs from RIETAN-2000. A number of powerful editors are available on the Web. Here, I introduce excellent free software for Mac OS X and Windows.
Note that the standard text mode should be specified on the use of TextEdit.
Both character codes (Shift-JIS, JIS, and EUC) and ends of line (CR, LF, and CR+LF) can simultaneously be converted with an editor.
Changes in RIETAN-2000 since January in 2004 are listed in what follows:
Download one of three binary archives for three different operating systems to mount or uncompress/extract it. Note that an older version of RIETAN-2000 has to be deleted prior to the installation of the latest version.
The archive files will sometimes be updated; please regard revision numbers or dates of updates. Changes in the latest versions are described in Sect. 9.Though viruses have been inspected by Norton AntiVirus, you should always check the content of archive files by your virus checker for safety.
Only executable programs are included in the distribution files; the source code of RIETAN-2000 is given only to collaborators.
A disk image file containing Terminal applications for Darwin (UNIX) is distributed here. To grab it, click (ctrl + click in the case of Mac OS X) the mouse button on the following archive file name
to display a pop-up menu and choose "Download Link to Disk", "Save this Link As...", "Save Target As...", or a corresponding item (depending on your browser). Double-click the downloaded disk image file, rietan2000m.dmg, on Mac OS X to mount a virtual disk 'RIETAN-2000 Folder'.
Read a text file, RIETAN-2000 Folder:Readme_mac.txt, thoroughly to obtain further information.
Position the pointer over the the following archive file name
Right-click the link to display a pop-up menu and choose "Save Link As...", "Save Target As...", or a corresponding item (depending on your browser). Drag and drop the downloaded file, rietan2000w.tbz, onto the icon of an archiver (refer to Archivers for Windows) to get a folder called RIETAN-2000 Folder. For details in the uncompressing/extraction process, refer to instructions of the archiver carefully.
Read Readme_win.txt in RIETAN-2000 Folder thoroughly to acquire further information. Gnuplot v4.0 for Windows is included in the above archive file to save time for those who want to plot results of Rietveld refinements with it.
With my permission, Hiroshi Ohki of Shinshu University has been distributing
An executable file built for Intel CPUs is included in this version.
You can use gnuplot script files, *.plt, included in the distribution files for Windows with 'set terminal x11'.
RIETAN-2000 was coded so that they can be built with the following Fortran compilers:
1) Mac OS X: Absoft Pro Fortran for Mac OS X v9.2
2) Windows: Visual Fortran for Windows v6.6C3
Porting RIETAN-2000 to various platforms are easy thanks to the separation of OS-dependent parts.
The archive files involve three kinds of template files, *.ins, written in both English and Japanese for neutron, characteristic X-ray, and SR powder diffraction. They also include another template file, Cu3Fe4P6E.ins, written in English for multi-phase Rietveld analysis of X-ray powder diffraction data. Here, please browse a couple of template files for Rietveld analysis of X-ray powder diffraction data for fluorapatite:
You will feel overwhelmed with their volumes resulting from the many new capabilities implemented in RIETAN-2000. You will also understand that *.ins is regarded as a kind of a reference manual where you can add/modify/delete comments yourself, which is impossible with the GUI using menus and dialog boxes.
RIETAN-2000 has an option to output Igor Pro text files to plot results of analysis and simulation on Mac OS and Windows. The advantage of Igor Pro over a self-made plotting routine is its high capabilities including (1) a programming language, (2) exporting files with several different formats, and (3) page layouts. You may complaint of not possessing an enough budget to buy it. However, WaveMetrics extends academic pricing to students and teachers. In the case of on-line ordering, WaveMetrics further permits students with limited financial resources to purchase Igor Pro at an unbelievable price of $85!
Igor Pro for Linux is not sold. However, the combination of Linux and VMware makes it possible to run Igor Pro for Windows on computers compatible with IBM-PC.
If free software is preferred to commercial software, please select
Features (1) and (2) of Igor Pro described above are also supported in gnuplot, and feature (3) can practically be achieved by importing EPS files created by gnuplot in graphic software such as Adobe Illustrator.
As far as I know, seven programs
to plot results of Rietveld refinements with RIETAN-2000 are distributed on the Web. PatMill allows us to input *.pat for Igor Pro. PatMill for Windows requires ActivePerl and Drop on Script in addition to gnuplot included in the RIETAN-2000 package. PatMill also runs just fine under Linux.
offer user interface environments for the Windows version of RIETAN. I regret that no program for the Macintosh has yet been developed.
I am really honored to have these utilities developed for RIETAN-2000. Please let me know of any other programs having something to do with RIETAN-2000 if any.
VENUS is an advanced 3D visualization system fully utilizing the OpenGL API and MEM. The VENUS package consists of the following four programs:
We designed it, bearing a combination with RIETAN-2000 in mind. For details in VENUS, please visit another Web page 3D Visualization System VENUS, where archive files for VENUS are distributed. It should be emphasized that the VENUS system includes a super-fast MEM analysis program, PRIMA, and ALBA for the maximum-entropy Patterson method.
VICS has a feature to input/output standard input files, *.ins, of RIETAN-2000 while VEND can input 3D data files, *.pri, created by PRIMA and ALBA. PRIMA was designed with MPF in mind, as can be inferred from its name. ALBA allows us to improve integrated intensities for overlapped reflections in a sophisticated way. The VENUS system, therefore, adds value to RIETAN-2000.
Visualization and manipulation of crystal structures using GUI is indispensable for the analysis of crystal structures by powder diffraction. The feature of creating CIFs is particularly useful for this purpose. Nearly all structure-drawing applications, e.g., ATOMS, CrystalMaker, Diamond, Crystallographica, and Balls & Sticks can import CIFs.
Powder diffraction analysis software by Cheng Dong
can input intensity data file (general format), *.int, for RIETAN-2000, which is followed by data processing such as background subtraction, smoothing, α2 stripping, and indexing of reflections with "inbuilt" TREOR.
I am sorry that no formal manual for RIETAN-2000 has been presented yet. I prefer software development to preparing its documentation. In effect, users of previous versions of RIETAN will be able to manage it without serious problems owing to the presence of the template files including a number of comments.
In addition, the following PDF (Portable Document Format) documents, (a)-(g), and other copyrighted articles are available here, in the library, and elsewhere:
A supplementary guide of RIETAN-2000 for users of RIETAN-94/97beta.
This user's manual for an earlier version of RIETAN is obsolete but serves to learn features that had already been supported in RIETAN-94.
This document listing all of the parameters to calculate the diffraction intensity (model function) is indispensable for preparation of *.ins.
This review article deals with two cutting-edge features implemented in RIETAN-2000: partial profile relaxation and MPF. It is also available in a printed form from here.
This review describes important information regarding the model function to calculate diffraction intensities, Le Bail refinement, and New Tink (preprocessor of input files). Accordingly, it must particularly benefit Japanese users. Various functions contained in the model function are explained in an understandable manner. Those who are going to challenge Le Bail refinement are strongly recommended to read this since its know-how is described here in detail.
Several mistakes in the published article have been corrected in this PDF file.
What can I say ..... I went into rhapsodies over the development of RIETAN-2000 in an aberrant manner like Don Quixote de la Mancha. Finally, my great endeavors bore fruit; RIETAN-2000 was completed in the spring of 2000. This article is heavy with frivolous rhetoric, but the story is believed to be amusing to most people.
Reading this article, you will understand fully the limitation of the MEM/Rietveld method and the necessity of the MPF method.
This article reports (1) biting criticism against the MEM/Rietveld method, (2) the principle of MPF, and (3) three examples of applying MPF to synchrotron X-ray powder diffraction data measured at SPring-8.
ISPD '98 was held at the Indian Association for the Cultivation of Science (IACS) in Calcutta during October 7-10, 1998. IACS is the premier research institute that has produced many illustrious scientists including C. V. Raman who earned a Nobel prize in 1930 for the well-known discovery of the Raman effect. ISPD was sponsored by the Commission on Powder Diffraction of the International Union of Crystallography and co-sponsored by the Indian National Science Academy.
The following book (ISBN 4-254-14059-2 C3043, Price: 4 800 yens, in Japanese, B5 size, 196 pages) was published on February 10, 2002:
We wrote this book, bearing RIETAN-2000 in mind. It must supplement the RIETAN-2000 package with a detailed description of its content: fundamental knowledge of crystallography, all the important functions contained in the model function, R factors, method of editing *.ins, etc. Click here to visit a web page (in Japanese) to offer a service for its readers.
This article is similar to Ref. (d) except that it is written in Japanese.
The last part of this paper describes determination of nuclear densities in HgBa2CuO4+z by the MPF method.
We described how to use RIETAN-2000 on Windows and Mac OS as part of "Better Usage of Personal Computers for Ceramists". A revised version of this article was included in a CD-ROM book (ISBN 4-931298-35-4) with the same title.
This review article describes (1) main new features of RIETAN-2000, (2) changes in R factors during the MPF of Na-LTA, (3) structure refinements of Na-SOD and Li-FAU by MPF, and (4) ab initio structure analysis of HLS. Reading this, you will recognize RIETAN-2000 to have an outstanding performance as multipurpose pattern-fitting software.
Synchrotron X-ray powder diffraction and latest structure-analysis software has increased possibilities of solving unknown structures. This article describes (1) estimation of integrated intensities by step-by-step Le Bail refinements, (2) derivation of an initial structural model by the direct method, and (3) analysis of a disordered structure by the MPF method. Examples of analyzing synchrotron powder data are demonstrated for cimetidine in (1), zeolite LTL in (2), and Sr9.3Ni1.2(PO4)7 in (3).
RIETAN-2000 is connected with several related programs via a variety of text files for cooperative crystallographic computation and visualization. Contents of input and output files of RIETAN are explained for its full utilization. The knowledge of measuring reliable powder diffraction data recorded in *.int and parts of data in the user-input file, *.ins, are described particularly in detail.
The most important purpose of Rietveld analysis is the refinement of lattice and structure parameters. In addition, we can obtain geometric data (in turn, bond valence sums), magnetic moments (neutron diffraction), crystallite sizes, microstrains, and mass fractions. They are briefly described so that one can gain a better understanding of the information extractable from powder diffraction data.
The combination of RIETAN-2000 and a super-fast MEM analysis program PRIMA enables us to represent crystal structures with densities of electrons (X-ray diffraction) or coherent-scattering lengths (neutron diffraction) instead of structure parameters in Rietveld analysis. We have devised sophisticated methodology named MEM-based pattern fitting, where whole-pattern fitting and MEM analysis are alternately repeated to minimize the bias of a structural model in Rietveld analysis. Applications of MPF to some compounds will be demonstrated. A 3D visualization program, VENUS, serves to display and manipulate electron and scattering-length densities, electrostatic potentials, wave functions, and so forth.
Introduction to X-ray crystallography and X-ray powder diffraction for biginners.
The MEM, MPF method, and applications of the MPF technology to several inorganic compounds are described in detail.
The MPF method is outlined together with its applications to structural studies of three compounds: (1) positional disorder of K+ ions interlayered in KxTi2-x/3Lix/3O4, (2) atomic arrangements of K clusters in a K-type zeolite LTA, and (3) nuclear/electron-density distribution in a high-Tc superconductor HgBa2CuO4+z.
I was asked to write a special article in honor of getting the 57th CerSJ Award for Academic Achievements mainly for the development of RIETAN-2000. The history of developing RIETAN for angle-dispersive and TOF neutron powder diffraction is briefly retraced. Then, the two advanced techniques of partial profile relaxation and MPF are introduced with five applications.
This original paper deals with application of MPF to synchrotron X-ray powder diffraction data of the highly disordered material. An outline of the MPF method is described in Introduction.
I gave a keynote lecture at the XIXth Conference on Applied Crystallography. This review article briefly describes its contents: the methodology of MPF and its applications to three inorganic materials.
I gave a keynote lecture at the 15th International Symposium on the Reactivity of Solids. This review article describes its contents, i.e., MPF and its applications to five inorganic compounds with highly disordered structures.
Chapter 4 describes the various aspects of powder diffraction including X-ray powder diffractometry, Rietveld analysis, pattern decomposition (Pawley and Le Bail methods), MEM, MEM-based pattern fitting, and ab initio structure analysis (reciprocal- and direct-space methods).
RIETAN-2000 incorporates a KDRREF program to generate diffraction indices (hkl) and multiplicities (m). To my regret, this routine contains bugs; it rarely generates surplus reflections, miss possible reflections, and give incorrect multiplicities.
Because contents of database files, particularly spgra, have not been checked sufficiently, equivalent positions input from them may sometimes be erroneous. They can be checked by referring to "International Tables for Crystallography," Vol. I or Vol. A and changed by editing spgri or spgra.
Provided that parts of hkl and m generated with RIETAN-2000 seem to be doubtful, check them using, e.g., Lazy Pulverix developed at the University of Geneva. This program is contained in ICSD and PowderX. The LMGP suit can also list hkl and m.
The latest version of RIETAN-2000 is capable of reading in a file, hklm.phn (n: phase number), storing hkl and m values for allowed Bragg reflections for the n'th phase. If hklm.phn is located in the same folder as *.ins and *.int, reflection indices and multiplicities for the n'th phase is not generated by RIETAN-2000 but input from hklm.phn. According to a format (in conformity with the grammar of Fortran) placed at the first line in this file, h, k, l, and m (four integers in each line) after the first line are input. For example, '(4I5)' means four right-justified integers each with five columns.
I ported Lazy Pulverix to Mac OS and Windows. This program was modified in such a way that a file called hklm.ph1 (change the extension if necessary) is always created. Developers of Lazy Pulverix, professors K. Yvon and E. Parthe, kindly permitted me to redistribute it as free software. To get this program for PC, please send me an e-mail.
In the next version of RIETAN, Lazy Pulverix or a similar program may be substituted for KDRREF.
The development of RIETAN has been led by user feedback. Its phenomenal success results from the response from around the country. I assume that things are working fine provided that no feedback is received. If its users were so selfish as to behave like "black holes," RIETAN would not be improved very much. Please feel free to inform me of any bugs and your thoughts. Sending me *.ins and *.int would facilitate the debug.
Encouraging responses would present me with driving forces for further development and refinement of RIETAN. Please let me have a postcard of your home town or a city you traveled if you like/love RIETAN-2000 and continue to use it. Is that too much to ask?
Important information on Rietveld analysis of neutron powder diffraction data with RIETAN-2000 is presented at here (Web page of HERMES). At least on Japanese WWW sites, I have never browsed such a detailed explanation of analysis of data measured at synchrotron-radiation and neutron-scattering facilities. This Web page must be of great benefit to those who have measured neutron intensity data on HERMES; Kenji Ohoyama, who is an instrumental scientist responsible for the HERMES diffractometer, has taken great effort to prepare the Web page.
Tatsuya Furuya built a Web site on structure analysis using RIETAN-2000 (+VENUS) including Q & A concerning powder diffraction and Rietveld analysis. This site is particularly useful for beginners of Rietveld analysis, offering detailed information about RIETAN-2000 for Windows and Mac OS.
Masami Tsubota provides us with information on RIETAN-2000 (under construction) in his Web site.
On the analysis of intensity data collected with unequal steps, e.g., neutron diffraction data taken on HERMES and HRPD at JRR-3M, the top line of *.int with a general format should be not 'GENERAL' but 'GENERAL$'. The last character, '$', is required to calculate observed integrated intensities in order when step widths with respect to 2θ vary two or more times for one reflection. This tip is generally effective when an error message "Too large NREGION" appears during calculation of R factors.
A feature to refine anomalous-scattering factors for each crystallographic site was implemented in an in-house version of RIETAN-2000 by Yanan Xiao (Southern Illinois Univ. and Univ. Chicago):
I cordially thank Takuji Ikeda for his dedicated cooperation throughout the development of RIETAN-2000 and the extended version of ORFFE. Without his help and encouragement, RIETAN-2000 would not have been completed in the current form full of professionalism. He also contributed his time and energy to testing alpha/beta versions and making up the template files. The feature of MPF owes its existence to Shintaro Kumazawa's proposal to implement it in RIETAN. Thanks are also due to Ruben A. Dilanian for developing lst2cif, VEND, VICS, PRIMA, and ALBA at my request. Many other users helped me in improving RIETAN-2000 by reporting its bugs and problems. I am much indebted to Power Macintosh 9500/132, who died just after the release of RIETAN-2000, for working diligently during computer programing using Language Systems Fortran. The development of both RIETAN-2000 and VENUS was financially supported by the Multi-Core Project for Superconductivity Research.