期刊名称:JOURNAL OF SYNCHROTRON RADIATION
 期刊简介(About the journal)
投稿须知(Instructions to Authors)
编辑部信息(Editorial Board)
About the journal
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Synchrotron Radiation Online is a service for subscribers to Journal of Synchrotron Radiation allowing access to navigable HTML and PDF versions of the full contents of issues of the journal.
Synchrotron radiation sources and their associated technologies have expanded at an extremely rapid rate during the past 20 years. Through the 1990s, many new synchrotron radiation sources have been constructed and exploited worldwide.
The Journal of Synchrotron Radiation aims to provide a focus in this rapidly expanding area. The topics covered by the journal include source technology, instrumentation and techniques over all the spectral ranges relevant to synchrotron radiation research. It thus draws together the full breadth of interests and skills of the synchrotron radiation community.
Contributions are invited within the general areas of instrumentation, methods and novel applications. The instrumentation topics include: synchrotron radiation sources and beamlines; optics; detectors; electronics and data acquisition; sample chambers and environment. The methods and applications topics are grouped within the following categories; diffraction; spectroscopy, imaging. |
Instructions to Authors
preparing your paper
We provide here the latest version of Notes for Authors, which give an overview of how to prepare a paper for publication, and links to template files suitable for submitting papers to Journal of Synchrotron Radiation
Welcome to the online submission service for Journal of Synchrotron Radiation.
The service is easy and straightforward to use, and requires you to supply
- the text and graphics of your article as a single file
- your full contact details
- details of your article
- source files of your text and graphics (after acceptance)
If you have not used this service before, please first read the detailed online submission instructions. Context-sensitive help is available by clicking on the help icons
1. Scientific scope
The Journal of Synchrotron Radiation seeks to cover all aspects of synchrotron radiation thus bringing together the full range of interests and skills of the synchrotron radiation community. Contributions are invited within the general areas of instrumentation, methods and applications. Instrumentation papers covering synchrotron radiation sources and beamlines, optics, detectors, electronics and data acquisition, and sample chambers and environment are welcomed. Methods and applications papers are invited within the categories of diffraction, spectroscopy and imaging.
2. Categories of contributions
Contributions should conform to the general editorial style of the journal.
2.1. Research Papers
Full-length Research papers should not normally exceed the equivalent of about 10000 words.
2.2. Short Communications
Short Communications are intended for the presentation of topics of limited scope or for preliminary announcements of novel research findings. They are not intended for interim reports of work in progress, and must report results that are of scientific value in their own right.
Short Communications should not exceed two journal pages (about 1500 words). A maximum of two figures and two tables of appropriate size are permitted. They are refereed in the normal way.
2.3. Reviews
The Main Editors occasionally invite leaders in selected areas to write Lead Articles, which are forward-looking reviews of specific topics. In addition, unsolicited review articles may be submitted. A brief outline of the proposed article should first be sent to one of the Main Editors. All selected Lead Articles and review articles will be refereed in the usual manner. These articles should not normally exceed 15000 words.
2.4. Computer Programs
A brief description of the purpose, strategy, computer language, machine requirements, input requirements and the type of results obtained should be included. It is also ordinarily required that the adequacy of the documentation shall have been proven by the successful use of the program by someone outside the author's institution. Computer Programs should not normally exceed 5000 words. They are refereed in the normal way.
2.5. Laboratory Notes
These are very brief descriptions of special devices, equipment modifications, techniques for accomplishing certain tasks etc. A simple schematic drawing may often be preferable to an actual photograph of the apparatus. These articles should not normally exceed 500 words and will not be refereed.
2.6. Computer Program Abstracts
This section provides a rapid means of communicating up-to-date information concerning both new programs or systems and significant updates to existing ones. Either the names and addresses of those people outside the author's laboratory who have used and tested the program(s) or a source-code listing and test execution should be provided. These will be sent to the referees as supporting material but will not be published or deposited in any form. A Computer Program Abstract should not exceed 500 words in length and should use the standard format given in J. Appl. Cryst. (1985), 18, 189-190.
2.7. Letters to the Editor
These may deal with non-technical aspects of synchrotron radiation, its role, its propagation, the proper functions of its Societies etc. or may make a technical observation or scientific comment that would usefully be brought to wider attention.
2.8. New Commercial Products
Announcements of new commercial products are published free of charge. The descriptions, up to 300 words or the equivalent if a figure is included, should give the manufacturer's full address.
2.9. Meeting Reports
These are normally invited. Prospective authors interested in writing such items should first contact one of the Main Editors.
2.10. Synchrotron Radiation Meetings and Short Courses
This section contains details of meetings of scientific societies, congresses, summer schools etc. that are of interest. Contributions should be sent to the Editorial Office in Chester.
2.11. Obituaries
These will be commissioned by the Main Editors.
3. Submission and handling of manuscripts
Papers should be submitted in one of two ways: as hard copy directly to the Managing Editor or electronically via the web at http://journals.iucr.org/services/submit.html .
3.1. Hard-copy submission
Manuscripts and figures should be prepared using the file formats listed in ?.10![[link]](http://journals.iucr.org/logos/links/pinkarr.gif) . Three paper copies and the electronic file(s) should be submitted; authors are reminded to keep an exact copy of the submission for later editorial adjustments and for checking proofs. Hard-copy submissions should be sent to:
The Managing Editor
International Union of Crystallography
5 Abbey Square
Chester CH1 2HU
England
Telephone: +44 1244 342878
Fax: +44 1244 314888
E-mail: med@iucr.org
Ftp: ftp.iucr.org (192.70.242.1)
On acceptance, a final electronic publication-ready paper (see Appendix B ) will be required by the Editorial Office.
Contact details for the editors are available at http://journals. iucr.org/s/services/editors.html . Editors are assigned to a paper according to their current workload and expertise. However, on submission authors should indicate the name of their preferred editor.
3.2. Electronic submission
Manuscripts and figures should be prepared using the file formats listed in ?.10. Full details of the submission procedure can be found at http://journals.iucr.org/services/submit.html and authors should first check this page to see if the service is available.
On acceptance, a final electronic publication-ready paper (see Appendix B ) will be required by the Editorial Office.
3.3. Languages of publication
The languages of publication are English, French, German and Russian.
3.4. Handling of manuscripts
The Co-editor to whom the manuscript is assigned is responsible for choosing referees and for accepting or rejecting the paper. This responsibility includes decisions on the final form of the paper and interpretation of these Notes when necessary.
If changes to a manuscript requested by a Main Editor, Co-editor or the editorial staff are not received within two months of transmittal to the author, the submission will automatically be withdrawn. Should the manuscript require further revision, this would normally be expected to be completed within one month of the revision having been requested. Any subsequent communication of the material will be treated as a new submission in the editorial process.
For accepted papers, it is the responsibility of the Managing Editor to prepare the paper for printing. This may involve correspondence with the authors and/or the responsible editor in order to resolve ambiguities or to obtain a satisfactory publication-ready paper. The date of acceptance that will appear on the published paper is the date on which the Managing Editor receives the last item required. Correspondence will be sent to the author who submitted the paper unless the Managing Editor is informed of some other suitable arrangement.
On rare occasions, an editor may consider that a paper is better suited to another IUCr journal. Any change to the journal of publication will only be made after full discussion with the communicating author.
3.5. Author's warranty
The submission of a paper is taken as an implicit guarantee that the work is original, that it is the author(s) own work, that all authors concur with and are aware of the submission, that all workers involved in the study are listed as authors or given proper credit in the acknowledgments, that the manuscript has not already been published (in any language or medium), and that it is not being considered and will not be offered elsewhere while under consideration for an IUCr journal. The inclusion of material in an informal publication, e.g. a preprint server or a newsletter, does not preclude publication in an IUCr journal.
Important considerations related to publication have been given in the ethical guidelines published in Acc. Chem. Res. (2002), 35, 74-76.
3.6. Copyright
Except as required otherwise by national laws, an author must sign and submit a copy of the Transfer of Copyright Agreement form (Appendix A ) for each manuscript before it can be accepted. During the electronic submission process, authors will be asked to transfer copyright electronically.
3.7. Author grievance procedure
An author who believes his paper has been unjustifiably treated by the Co-editor may appeal to one of the Main Editors for a new review.
3.8. Contact e-mail address
The contact author must provide an e-mail address for editorial communications and despatch of electronic proofs.
3.9. Electronic publication-ready paper
Authors whose papers are accepted for publication will be asked to produce the final electronic publication-ready paper (see Appendix B ). This will be reviewed by the IUCr Editorial Office staff, who may request revisions on technical grounds.
3.10. File format
The manuscript should be prepared using TEX, LATEX or Word. Authors are encouraged to use the templates available from the Editorial Office by e-mail (med@iucr.org) or by ftp (from the `templates' directory). All Word submissions should be accompanied by an RTF (rich text format) file.
Figures may be provided in PostScript, encapsulated PostScript or TIFF formats. The resolution of bitmap graphics should be a minimum of 600 d.p.i.
3.11. File transfer
For electronic submissions the files should be uploaded via the web. Full details of this procedure are given at http://journals.iucr.org/services/submit.html .
For hard-copy submissions final electronic files must have a filename constructed from the reference number supplied by the Co-editor. Files should be given the extensions .tex, .doc and .rtf as appropriate. Illustrations should be given the extensions .ps, .eps or .tif. Multiple files for the same submission should be uniquely identified, e.g. xz1087fig1.ps, xz1087fig2.ps, xz1087.doc etc., where xz1087 is the reference number. Only after acceptance of the paper by the responsible editor should the final electronic publication-ready paper (see Appendix B ) be sent to the Editorial Office in Chester. This may be via the web (see above), by e-mail (med@iucr.org), on diskette or by ftp as described below.![[link]](http://journals.iucr.org/logos/links/purparr.gif)
| (i) On your workstation enter: |
ftp ftp.iucr.org |
| (ii) Wait for Name...: prompt and enter: |
anonymous |
| (iii) Wait for Password: prompt and enter: |
your e-mail address |
| (iv) Wait for ftp> prompt and enter: |
cd incoming/s |
| (v) Transfer a file from your account (e.g. j29.ps) as an identifiable name (e.g. xz1087fig1.ps): |
put j29.ps xz1087fig1.ps |
| (vi) Wait for ftp> prompt before sending another file |
| (vii) Finish off the ftp session by entering: |
bye |
| (viii) Send an e-mail to Chester (med@iucr.org) with a list of the files transferred by ftp. |
| |
4. Abstract, synopsis and keywords
All scientific contributions must be preceded by an English language Abstract and a one or two sentence Synopsis of the main findings of the paper for inclusion in the Table of Contents. The Abstract should state concisely the principal results obtained.
The Abstract should be suitable for reproduction by abstracting services without change in wording. It should not repeat information given in the title. Ordinarily 200 words suffice for Abstracts of a full-length article and 100 words for shorter contributions. It should make no reference to tables, diagrams or formulae contained in the paper. It should not contain footnotes. Numerical information given in the Abstract should not be repeated in the text. It should not include the use of `we' or `I'.
Literature references in an Abstract are discouraged. If a reference is unavoidable, it should be sufficiently full within the Abstract for unambiguous identification, e.g. [Smith (1998). J. Synchrotron Rad. 5, 21-31].
Authors should ideally supply at least five keywords.
5. Diagrams and photographs (`figures')
Figures should be prepared using one of the file formats listed in ?.10.
The choice of tables and figures should be optimized to produce the shortest printed paper consistent with clarity. Duplicate presentation of the same information in both tables and figures is to be avoided, as is redundancy with the text. In a paper only those figures which are strictly necessary to illustrate the techniques or results described will be published: any others will be deposited. The text should be adequate to give the remaining information.
In papers which use powder profile fitting or refinement (Rietveld) methods, figures which present the experimental and calculated diffraction profiles of the material studied should also contain the difference profile. As primary diffraction data cannot be satisfactorily extracted from such figures, the basic digital diffraction data should be deposited (see ?2.3)
5.1. Quality
Electronic files in the formats listed in ?.10 are essential for high-quality reproduction. The resolution of bitmap graphics should be a minimum of 600 d.p.i. At the editor's discretion, figures printed in black and white may appear in colour in Crystallography Journals Online.
5.2. Size
Diagrams should be as small as possible consistent with legibility. They will normally be sized so that the greatest width including lettering is less than the width of a column in the journal.
5.3. Lettering and symbols
Fine-scale details and lettering must be large enough to be clearly legible (ideally 1.5-3 mm in height) after the whole diagram has been reduced to one column width. Lettering should be kept to a minimum; descriptive matter should be placed in the legend.
5.4. Numbering
Diagrams should be numbered in a single series in the order in which they are referred to in the text.
6. Tables
6.1. Use of tables
Extensive numerical information is generally most economically presented in tables. Text and diagrams should not be redundant with the tables.
6.2. Design, numbering and size
Tables should be numbered in a single series of arabic numerals in the order in which they are referred to in the text. They should be provided with a caption.
Tables should be carefully designed to occupy a minimum of space consistent with clarity.
7. Mathematics and letter symbols
Authors submitting in Word should use the Word equation editor to prepare displayed mathematical equations.
The use of the stop (period) to denote multiplication should be avoided except in scalar products. Generally no sign is required but, when one is, a multiplication sign (? should be used.
Vectors should be in bold type and tensors should be in bold-italic type.
Greek letters should not be spelled out.
Care should be taken not to cause confusion by using the same letter symbol in two different meanings.
Gothic, script or other unusual lettering should be avoided. Another typeface may be substituted if that used by the author is not readily available.
Equations, including those in published Appendices, should be numbered in a single series.
8. Multimedia
Multimedia additions to a paper (e.g. time-lapse sequences, three-dimensional structures) are welcomed; they will be made available via Crystallography Journals Online.
9. Nomenclature
9.1. Crystallographic nomenclature
Authors should follow the general recommendations produced by the IUCr Commision on Crystallographic Nomenclature (see reports at http://www.iucr.org/iucr-top/comm/cnom/ ).
Atoms of the same chemical species within an asymmetric unit should be distinguished by an appended arabic numeral. Chemical and crystallographic numbering should be in agreement wherever possible. When it is necessary to distinguish crystallographically equivalent atoms in different asymmetric units the distinction should be made by lower-case roman numeral superscripts (i.e. i, ii, iii etc.) to the original atom labels.
9.2. Nomenclature of chemical compounds etc.
Names of chemical compounds and minerals are not always unambiguous. Authors should therefore quote the chemical formulae of the substances dealt with in their papers.
Chemical formulae and nomenclature should conform to the rules of nomenclature established by the International Union of Pure and Applied Chemistry (IUPAC ), the International Union of Biochemistry and Molecular Biology (IUBMB ), the International Mineralogical Association and other appropriate bodies. As far as possible the crystallographic nomenclature should correspond to the systematic name.
Any accepted trivial or nonsystematic name may be retained, but the corresponding systematic (IUPAC ) name should also be given.
9.3. Units
The International System of Units (SI ) is used except that the ångström (symbol ? defined as 10-10 m) is generally preferred to the nanometre (nm) or picometre (pm) as the appropriate unit of length. Recommended prefixes of decimal multiples should be used rather than `?0n'.
10. References
References to published work must be indicated by giving the authors' names followed immediately by the year of publication, e.g. Neder & Schulz (1998) or (Neder & Schulz, 1998). Where there are three or more authors the reference in the text should be indicated in the form Smith et al. (1998) or (Smith et al., 1998) etc. (all authors should be included in the full list).
In the reference list, entries for journals [abbreviated in the style of Chemical Abstracts (the abbreviations Acta Cryst., J. Appl. Cryst. and J. Synchrotron Rad. are exceptions)], books, multi-author books, computer programs, personal communications and undated documents should be arranged alphabetically and conform with the style shown below.
| Sample reference list |
| Andrews, M., Wright, H. & Clarke, S. A. (1998). In preparation. |
| Bürgi, H.-B. (1989). Acta Cryst. B45, 383-390. |
| Ferguson, G., Schwan, A. L., Kalin, M. L. & Snelgrove, J. L. (1997). Acta Cryst. C53, IUC9700009. |
| Hervieu, M. & Raveau, B. (1983a). Chem. Scr. 22, 117-122. |
| Hervieu, M. & Raveau, B. (1983b). Chem. Scr. 22, 123-128. |
| International Union of Crystallography (2000). (IUCr) Journal of Synchrotron Radiation, http://journals.iucr.org/s/journalhomepage.html. |
| International Union of Crystallography (2001). (IUCr) Structure Reports Online, http://journals.iucr.org/e/journalhomepage.html. |
| Jones, P. T. (1987). Personal communication. |
| McCrone, W. C. (1965). Physics and Chemistry of the Organic Solid State, Vol. 2, edited by D. Fox, M. M. Labes & A. Weissberger, pp. 725-767. New York: Interscience. |
| Perkins, P. (undated). PhD thesis, University of London, England. |
| Sheldrick, G. M. (1976). SHELX76. Program for Crystal Structure Determination. University of Cambridge, England. |
| Smith, J. V. (1988). Chem. Rev. 88, 149-182. |
| Smith, J. V. & Bennett, J. M. (1981). Am. Mineral. 66, 777-788. |
| Vogel, A. (1978). Textbook of Practical Organic Chemistry, 4th ed. London: Longman. |
| |
Note that inclusive page numbers must be given.
11. Crystal structure determinations
Papers that report the results of crystal structure determinations of small molecules must report the associated experimental data as required in the Notes for Authors for Section C of Acta Crystallographica. These data should be supplied as a single electronic file in CIF format. The CIF will be checked in Chester for internal consistency.
12. Supplementary publication procedure (deposition)
12.1. Purpose and scope
Parts of some papers are of interest to only a small number of readers, and the cost of printing these parts is not warranted. Arrangements have therefore been made for such material to be made available from the IUCr electronic archive via Crystallography Journals Online or to be deposited with the Protein Data Bank, the Nucleic Acid Database and the ICDD as appropriate.
12.2. IUCr electronic archive
All material for deposition in the IUCr electronic archive should be supplied electronically.
Non-structural information, which may include:
- details of the experimental procedure;
- details of the stages of structure refinement;
- details of mathematical derivations given only in outline in the main text and in mathematical Appendices;
- lengthy discussion of points that are not of general interest or that do not lead to definite conclusions but that do have significant value; and
- additional diagrams,
| should be supplied in one of the formats given in ?.10 .
Structural information (for small-molecule structures) should be supplied in CIF format; structure factors should be supplied as .fcf files.
12.3. Powder diffraction data
Authors of powder diffraction papers should consult the notes provided at the online CIF help page (http://journals.iucr.org/c/services/cifhelp.html ).
For papers that present the results of powder diffraction profile fitting or refinement (Rietveld) methods, the primary diffraction data, i.e. the numerical intensity of each measured point on the profile as a function of scattering angle, will be deposited.
12.4. Macromolecular structures
Authors should follow the deposition recommendations of the IUCr Commission on Biological Macromolecules [Acta Cryst. (2000). D56, 2 ]. For all structural studies of macromolecules, coordinates and structure factors must be deposited with the Protein Data Bank or the Nucleic Acid Database if a total molecular structure has been reported. Authors must supply the Protein Data Bank/Nucleic Acid Database reference codes before the paper can be published.
12.5. XAFS data
For papers that present XAFS data of an unknown system, the deposition of primary ![[chi]](http://journals.iucr.org/logos/entities/khgr_rmgif.gif) (K) data will be encouraged.
12.6. Other spectroscopic, diffraction and imaging data
Deposition of primary data is generally encouraged. Please enquire prior to submission as regards preferred format.
13. Crystallography Journals Online
All IUCr journals are available on the web via Crystallography Journals Online; http://journals.iucr.org/ . Full details of author services can be found at http://journals.iucr.org/s/services/authorservices.html .
13.2. Proofs
Proofs will be provided in portable document format (pdf). The correspondence author will be notified by e-mail when the proofs are ready for downloading.
13.3. Reprints
After publication, the correspondence author will be able to download the electronic reprint of the published article, free of charge. Authors will also be able to order printed reprints at the proof stage.
Editorial Board
editors and co-editors of Journal of Synchrotron Radiation
editors
? Kvick, ESRF, BP 220, F-38043 Grenoble CEDEX, France (e-mail: kvick@esrf.fr)
Areas of expertise: inorganic structures; instrumentation; materials science.
D. M. Mills, APS, Argonne National Laboratory, 9700 South Cass Avenue, Argonne, IL 60439, USA (e-mail: dmm@aps.anl.gov)
Areas of expertise: dynamical diffraction; instrumentation; time-resolved studies; X-ray diffraction; X-ray optics.
T. Ohta, Department of Chemistry, School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan (e-mail: ohta@chem.s.u-tokyo.ac.jp)
Areas of expertise: XAFS (NEXAFS and EXAFS); photoelectron spectroscopy; surface science; XMCD; soft-X-ray spectroscopy.
co-editors
L. E. Berman, National Synchrotron Light Source, 725D Brookhaven National Laboratory, Upton, New York 11973, USA (e-mail: berman@bnl.gov)
Areas of expertise: X-ray optics; beamline components; surface science instrumentation; X-ray crystallography.
C. T. Chen, Synchrotron Radiation Research Center, Hsinchu Science-Based Industrial Park, Hsinchu 30077, Taiwan (e-mail: ctchen@srrc.gov.tw)
Areas of expertise: electronic and magnetic structure of matter; soft X-ray spectroscopies; beamline design and instrumentation.
R. R. Frahm, FB 8 - Physik, Universität Gesamthochschule Wuppertal, Gaußstrasse 20, D-42097 Wuppertal, Germany (e-mail: frahm@uni-wuppertal.de)
Areas of expertise: absorption spectroscopy (XAFS, EXAFS, XANES, multishell excitations); synchrotron radiation (instrumentation, beamlines, monochromators, optics); anomalous dispersion (DAFS); solid-state physics (using X-rays).
A. K. Freund, ESRF, BP 220, 38043 Grenoble CEDEX, France (e-mail: freund@esrf.fr)
Areas of expertise: X-ray optics; high heat load; microfocusing; X-ray diffraction physics.
H. Graafsma, ESRF, BP 220, 38043 Grenoble CEDEX, France (e-mail: graafsma@esrf.fr)
Areas of expertise: X-ray detectors; single-crystal diffraction; non-steady state crystallography; electron deformation densities.
S. S. Hasnain, CCLRC Daresbury Laboratory, Warrington WA4 4AD, UK (e-mail: s.s.hasnain@dl.ac.uk)
Areas of expertise: biological crystallography; metalloproteins; XAFS; biophysics; structural genomics.
J. R. Helliwell, Department of Chemistry, University of Manchester, Oxford Road, Manchester M13 9PL, England (e-mail: john.helliwell@man.ac.uk)
Areas of expertise: biological crystallography; synchrotron radiation instrumentation, methods and applications; neutron methods and applications.
G. E. Ice, Metals and Ceramics Division, Oak Ridge National Laboratory, PO Box 2008, Oak Ridge, TN 37831-6118, USA (e-mail: icege@ornl.gov)
Areas of expertise: X-ray optics; diffuse X-ray scattering; microbeam/microdiffraction.
A. Iida, Photon Factory, Institute of Materials Structure Science, High Energy Accelerator Research Organisation, 1-1 Oho, Tsukuba, Ibaraki 305-0801, Japan (e-mail: atsuo.iida@kek.jp)
Areas of expertise: X-ray fluorescence analysis; X-ray optics; X-ray microbeam; liquid crystals.
J. Kirz, Department of Physics, SUNY at Stony Brook, Stony Brook, NY 11794-3800, USA (e-mail: kirz@sbhep.physics.sunysb.edu)
Areas of expertise: microscopy; coherence; optics; radiation damage.
H. Kitamura, Harima Institute, The Institute of Physical and Chemical Research (RIKEN), Kouto 1-1-1, Mikazuki-cho, Sayo-gun, Hyogo 679-5148, Japan (e-mail: kitamura@spring8.or.jp)
Areas of expertise: synchrotron radiation sources; insertion devices; free-electron lasers; front-end technology.
G. Kostorz, Institut für Angewandte Physik, ETH Zurich, CH-8093 Zurich, Switzerland (e-mail: kostorz@iap.phys.ethz.ch)
Areas of expertise: electron microscopy; crystal defects and order-disorder; internal stresses; materials science; metals and alloys; neutron and X-ray diffraction; phase transformations; plasticity.
G. Oliva, Laboratório de Cristalografia de Proteinas e Biologica Estrutural, Instituto de Fisica de São Carlos, Universidade de São Paulo, Caixa Postal 369, 13560-970 São Carlos SP, Brazil (e-mail: oliva@ifqsc.sc.usp.br)
Areas of expertise: protein crystallography; structure-based drug design; enzymes; methods in protein structure determination; tropical diseases.
H. A. Padmore, Advanced Light Source, MS 2-400, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA 94720, USA (e-mail: hapadmore@lbl.gov)
Areas of expertise: X-ray optics; X-ray microscopy; insertion device and beamline design; photoemission electron microscopy.
J. Penner-Hahn, Department of Chemistry, The University of Michigan, 930 N. University Avenue, Ann Arbor, MI 48109-1055, USA (e-mail: james.penner-hahn@umich.edu)
Areas of expertise: XAFS; EXAFS; proteins; WAXS; XANES; DAFS; X-ray microprobe.
M. Taniguchi, Hiroshima Synchrotron Radiation Centre, Hiroshima University, 2-313 Kagamiyama, Higashi-Hiroshima 739-8526, Japan (e-mail: taniguch@hiroshima-u.ac.jp)
Areas of expertise: photoemission and inverse-photoemission spectroscopy; VUV and soft X-ray spectroscopy; electronic states of solids.
S. W. Wilkins, CSIRO, Manufacturing and Infrastructure Technology, PB 33, Clayton South MDC, Clayton, Victoria 3169, Australia (e-mail: wilkins@cmst.csiro.au)
Areas of expertise: diffraction theory; phase-contrast imaging; X-ray optics; synchrotron instrumentation; high-precision diffractometry.
A. F. Wrulich, Paul Scherrer Institut, OVGA/201B, CH-5232 Villigen, Switzerland (e-mail: albin.wrulich@psi.ch)
Areas of expertise: accelerators; synchrotron light sources; low-emittance electron guns; free-electron lasers.
book-review editor
M. Hart, Department of Physics, University of Bristol, Bristol, UK (e-mail: m.hart@bristol.ac.uk).
current-events editor
S. S. Hasnain, CCLRC Daresbury Laboratory, Warrington WA4 4AD, UK (e-mail: s.s.hasnain@dl.ac.uk)
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![[Cover image]](http://journals.iucr.org/logos/bigjsr.gif)