Kunikazu Takeshita

Construction and commissioning of a 215-m-long beamline at SPring-8

Abstract The 215-m-long beamline has been constructed as the first medium-length beamline of SPring-8 for the purpose of R&D of imaging techniques, development of X-ray optics, computed tomography for mineral science, medical imaging, and X-ray topography. By using the long beamline, large field and spatially coherent beam can be obtained. Advantage of long beamline is successfully demonstrated by the preliminary experiment such as one-shot topograph of 300-mm-diameter silicon crystal.

Construction and Commissioning of A 248 m‐long Beamline with X‐ray Undulator Light Source

A medium‐length beamline with undulator source, BL20XU at SPring‐8, was constructed, and opened to public use. The distance from source point to the end of the beamline is 248 m. By utilizing the long beam transport path, the beamline has advantages for experiment that requires high spatial coherence in hard X‐ray regions.

Construction and Commissioning of BL37XU at SPring-8

Trace element analysis beamline (BL37XU) at SPring‐8 was designed for application to various X‐ray fluorescence analyses such as XRF imaging, XAFS, TXRF and XRF holography. The beamline has of two branches, one being a SPring‐8 standard undulator‐beamline optics branch (Branch A) and the other a high‐energy branch (Branch B). In the experimental hutches, several kinds of experimental device are equipped. The end‐stations have been opened to public use since November 2002, and various experiments have been carried out.

Performance of a Highly Stabilized and High-resolution Beamline BL17SU for Advanced Soft X-ray Spectroscopy at SPring-8

A new soft x‐ray beamline BL17SU (RIKEN) has been constructed at SPring‐8. The beamline consists of two branches with each varied‐line‐spacing‐plane‐grating‐monochromator. Both monochromators perform high energy resolution (E/ΔE > 10,000) between 0.2 and 1 keV. One of the monochromator achieves high energy stability of 10 meV over a period of half a day.

SPring-8 standard x-ray monochromators

Most SPring-8 x-ray beamlines are installed double-crystal monochromators that are standardized. For x-ray undulator beamlines where power density of the beam are quite high, rotated-inclined double-crystal geometry is usually adopted, which enlarges the footprint of the incident beam on the crystal surface to reduce the power density. On the other hand, adjustable-inclined double-crystal geometry is adopted for bending-magnet beamlines to extend the available energy range with a limited Bragg angle range. The standardized monochromator mechanism is compatible to both of the geometries, only by changing crystal mounts. Detailed description of the monochromator mechanism is presented.

New soft X-ray beamline BL07LSU at SPring-8

The design and performance of a new soft X-ray beamline BL07LSU at SPring-8 are described. The combination of a novel segmented cross undulator and beamline monochromator has achieved high energy resolution (E/ΔE > 10000) and high photon flux [>1012 photons s−1 (0.01% bandwidth)−1] in the photon energy range 250–2000 eV with fully controllable polarization.

1-km beamline at SPring-8

A one-kilometer long synchrotron radiation beamline with an x- ray undulator source was completed at SPring-8. The beamline was planned to facilitate various applications of a wide-area coherent x-ray beam, development of bi-crystal x-ray interferometers for gravitational red-shift measurement and development of highly sensitive diagnostic methods of accelerator dynamics. This paper reports the structure of the long beamline as well as some selected first results including phase contrast imaging and diffraction imaging applications.

Early commissioning of the SPring-8 beamline for high resolution inelastic X-ray scattering

Abstract BL35XU of SPring-8 is dedicated to the investigation of sample dynamics on ∼meV energy scales using inelastic X-ray scattering and nuclear resonant scattering of synchrotron radiation. The beamline saw first light in February 2000. We briefly describe the beamline design and status. We include results from the early commissioning period, and from our program of instrumentation development, including backscattering monochromators and analyzer crystals.

New micro-beam beamline at SPring-8, targeting at protein micro-crystallography

A new protein micro‐crystallography beamline BL32XU at SPring‐8 is under construction and scheduled to start operation in 2010. The beamline is designed to provide the stabilized and brilliant micro‐beam to collect high‐quality data from micro‐crystals. The beamline consists of a hybrid in‐vacuum undulator, a liquid‐nitrogen cooled double crystal monochromator, and K‐B focusing mirrors with large magnification factor. Development of data acquisition system and end station consists of high‐precision diffractometer, high‐efficiency area detector, sample auto‐changer etc. are also in progress.

Standard Transport Channels of X-ray Beamlines at SPring-8

SPring-8 is constructing most of its beamlines using a combination of standardized components. The structures of the beamlines are also standardized according to the light-source characteristics. Specifications of components as well as the unified method of assembly and alignment are described.