High-Precision Solutions for Reliable Scientific Experiments

Scientific experiments pose their own challenges, and beamline X-ray experiments are even more special in themselves. However, the need for precision equipment is universal. At PI, specialists with many years of engineering experience work together with scientists to develop the best solution: Unique in its features, repeatable in performance. Beamline Instrumentation focuses on the optimum motion and positioning equipment for beam preparation optics, sample manipulation, detector positioning, be it single components or full endstation instrumentation. Beamline Instrumentation is your partner of choice for the design, manufacturing, qualification, and commissioning.

トモグラフィー

Sample Positioning in Cryogenic Environment
Cryo Sample Positioning with SpaceFAB
Sample positioning in high‐vacuum cryogenic environment needs instruments which operate at temperatures of ‐50 °C in a high‐vacuum chamber.
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Full Instrumentation for X-Ray Nanotomography
Nanotomography sample positioning
ハンブルクにあるDESY研究センターのX線源PETRA IIIに、イメージングビームラインP05があります。
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Positioning for Laminography
Positioning for Laminography
High-precision spatial positioning for synchrotron laminography allows high-resolution 3D imaging on large flat, extended objects.
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分光

Compact Linear Translation Stage Positions X-Ray Detectors
Compact Linear Translation Stage Positions X-Ray Detectors
For positioning the x-ray detectors, PI developed a compact linear translation stage that features a guiding and two separate moving plates.
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Positioning the Vacuum Chamber for X-ray Diffraction Experiments
PI-Vacuum-Chamber-PI-Hexapod
Positioning the vacuum chamber for x-ray diffraction experiments.
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Sample Manipulators in High-Vacuum
SURFACE Sample Manipulator
Investigation of the structural properties of thin films under high-vacuum conditions.
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Long-Term Positioning
PI-4-Axis-Positioning
For the task of long-term positioning a high accuracy of motion is demanded as well as the stability over long terms in a vacuum environment.
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Beam Preparation

Monochromator for an X-Ray Spectrometer
PI Design Double Monochromator ID18
PI社のビームライン装置部門は、用途に基づくソリューションを提供しています。例としては、X線スペクトロメータ用の分光器があります。
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X-Ray Optics Hutch Instrumentation
ハンブルクにあるDESYのP05イメージングビームラインは、HZGによって運用されています。
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Slit Control in the Photon Delivery System
SSRF-Photon-Delivery-System
XZ positioning systems control x-xay slits at the the Shanghai Synchrotron Radiation Facility, Shanghai (SSRF).
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Beam Preparation in a Gamma Ray Environment
system for beam preparation
For alignment systems for optical components in such a hostile environment PI designed, built and qualified a parallel kinematic machine with six degrees of freedom (DOF) within 30 weeks only.
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サンプル位置決め

X-Ray Holography and Tomography Endstation
X-Ray Holography and Tomography Endstation
トモグラフィーおよびホログラフィー用のエンドステーション内での試料位置決めセットアップ。
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Micro-Computed Tomography
The BAMline is intended for X-ray fluorescence analysis, micro-computed tomography, X-ray topography, detector calibration and reflectometry.
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X-Ray-Diffractometer
Diamond-Light-Source-Beamline-I07
At Diamond Light Source, UK, beamline I07 is a high-resolution X-ray diffraction beamline dedicated to investigate the structure of surfaces and interfaces.
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X-Ray Tomography Stage for Cryogenic Samples
PI-Tomography-Stage
The setup of the x-ray tomography stage, located at the P06 beamline of PETRA III at DESY (Germany) allows to investigate samples that require both cooling and vacuum environment.
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材料研究用高荷重パラレルキネマティクス
High-Load Parallel Kinematics for Materials Research
ビームラインの高エネルギーX線は、溶接の継ぎ目の観察など材料研究に大きな貢献をしています。

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顕微鏡検査

X-Ray Scanning Microscope with Unrivalled Resolution
DESY-XYZ-Stage-Granite
The Hard X-ray Micro/Nano-Probe beamline P06 at PETRA III provides advanced visualisation with micro/nanoscopic spatial resolution using different X-ray techniques.
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加速器技術

PICMA® Multilayer Piezo Actuators Improve Efficiency in the Particle Accelerator XFEL
PICMA® Multilayer Piezo Actuators Improve Efficiency in the Particle Accelerator XFEL
XFEL加速器でのローレンツ力のダイナミック補正: DESY (ドイツ電子シンクロトロン研究所) のXFEL粒子加速器は、超電導加速構造、いわゆる共振器またはキャビティに基づく加速技術を利用しています。
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