How much beam size should be reachable at the end of the beamline?

By switching to low-β mode a FWHM beam size of 0.9 (v) x 6 (h) mm 2 should be reachable at the tomography station at the end of the beamline (100 m distance to source).

What are the design parameters of PETRA III?

Design parameters of PETRA III are an energy of 6 GeV, a current of 100 mA, and an emmittance of 1 nmrad (horizontally) and 0.01 nmrad (vertically).

What is the source for the HEMS?

The source for HEMS will be a 4.5 m long in-vacuum undulator (U19-5) at a high-β position optimized for high energies with tunability 30-200 keV [3].

What is the purpose of the paper?

Experiments targeting the industrial user community are based on well established techniques with standardised evaluation, allowing "full service" measurements, as well as automated investigations of large sample numbers, e.g. for texture determination and tomography.

What are the typical experiments of HEMS?

Typical experiments comprise residual stress mapping of various welds in steels (also depth resoved via conical slits), texture studies of all kinds in heavy atom materials, structure studies of metallic glasses during fast heating, and exotic applications of diffraction investigations of dinosaur eggshells or combined diffraction and fluorescence studies of bronze artifacts.

What is the responsibility of the HEMS?

construction, operation and main funding of the High Energy Materials Science Beamline HEMS is the responsibility of the Helmholtz-Zentrum Geesthacht, Centre for Materials and Coastal Research, HZG (formerly GKSS) [2].

What is the main infrastructure for the HEMS?

Two side laboratories (machine shop and cleaning facility) and office space in the 1 st floor hall gallery complement the infrastructure.

What is the main beam requirement for the experimental hutch?

Experimental Hutch EH3 satisfies the engineering community with its demand for handling large and heavy samples or sample environments (welding and fatigue-loading machines, furnaces, cryostats).

When was the reconstruction of the storage ring started?

After the conceptual design in 2002 and the final approval of the project in May 2005, the reconstruction of the storage ring began July 2007.

How many indexed grains are shown in the Fig. 5?

measured with beam size of 0.05 x 1.0 mm 2 . 128 indexed grains are shown as spheres with diameters reflecting relative volumes and colours corresponding to orientation (position accuracy 30 µm, orientation accuracy 0.15 o , relative error of volume 35 %, courtesy J. Oddershede).

Open AccessJournal Article10.4028/WWW.SCIENTIFIC.NET/MSF.772.57

The High Energy Materials Science Beamline (HEMS) at PETRA III

Norbert Schell, +5 more

- 01 Nov 2013

- Materials Science Forum

- Vol. 772, pp 57-61

208

TL;DR: The HEMS beamline at PETRA III has a main energy of 120 keV, is tunable in the range 30-200 keV and optimized for sub-micrometer focusing with Compound Refractive Lenses.

Abstract: The HEMS beamline at PETRA III has a main energy of 120 keV, is tunable in the range 30-200 keV, and optimized for sub-micrometer focusing with Compound Refractive Lenses. Design, construction, and main funding was the responsibility of the Helmholtz-Zentrum Geesthacht, HZG. Approximately 70 % of the beamtime is dedicated to Materials Research, the rest reserved for “general physics” experiments covered by DESY, Hamburg. The beamline P07 in sector 5 consists of an undulator source optimized for high energies, a white beam optics hutch, an in-house test facility and three independent experimental hutches, plus additional set-up and storage space for long-term experiments. HEMS has partly been operational since summer 2010. First experiments are introduced coming from (a) fundamental research for the investigation of the relation between macroscopic and micro-structural properties of polycrystalline materials, grain-grain-interactions, recrystallisation processes, and the development of new & smart materials or processes; (b) applied research for manufacturing process optimization benefitting from the high flux in combination with ultra-fast detector systems allowing complex and highly dynamic in-situ studies of microstructural transformations, e.g. in-situ friction stir welding; (c) experiments targeting the industrial user community.

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Most frequently asked questions

1. What are the contributions in this paper?

The High Energy Materials Science Beamline HEMS ( HEMS ) at PETRA III this paper is the state-of-the-art high-brilliance synchrotron radiation source.

2. How can the authors use the HEMS beamline?

Fast 2D-detectors together with varying focus spots down to 200 nm in the future will allow highly dynamic in-situ experiments of micro-structural transformations.

3. What is the beamline at PETRA III?

The HEMS beamline at PETRA III is optimized for the key properties of hard x-rays in the tunable range 30-200 keV – large penetration depth, negligible extinction and Bragg scattering, large Ewald spheres – to investigate non-destructively bulk properties or deeply buried structures mainly in the context of Materials Research, but versatile enough to allow experiments in the merging fields of physics, chemistry and biology.

4. What is the main purpose of the paper?

Applied research for manufacturing process optimization benefits from the high flux in combination with ultra-fast detector systems allowing complex and highly dynamic in-situ studies of micro-structural transformations.

Fig. 1: 3D-view with main experimental stations of HEMS.

Fig. 4 (below): 3D-XRD micro-structure mapper with sample-handling in the center part, shielded optics to the right (with free space shown for Kirkpatrick-Baez Multilayer mirrors or Compound Refractive Lenses) and various near-field (3D x-ray detector from Risø [16] or Photonic Science VHR 11 megapixel CCD [17]) and far-field detectors to the left (mar345, mar555).

Fig. 5: First tomogram at HEMS of a Nb3Sn superconductor with scan volume 1 mm 3 at 70 keV (left), first centre-of-mass grain map of undeformed Al at 60 keV (right) – 14 cuts á 50 µm,

Fig. 2: HEMS general purpose diffractometer with optional pre-tilt-monochromator (courtesy U. Rütt).

Citations

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Peritectic titanium alloys for 3D printing

Pere Barriobero-Vila, +6 more

- 24 Aug 2018

- Nature Communications

TL;DR: The present investigations reveal a promising solidification and cooling path for α formation not yet exploited, in which α does not inherit the usual crystallographic orientation relationship with the parent β phase, and the associated decrease in anisotropy represents a step forward toward a next generation of titanium alloys for AM.

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The role of lattice defects, element partitioning and intrinsic heat effects on the microstructure in selective laser melted Ti-6Al-4V

Jan Haubrich, +8 more

- 01 Apr 2019

- Acta Materialia

TL;DR: In this paper, the microstructure evolution in selective laser melted (SLM) Ti-6Al-4V was studied in the as-built condition and after sub-transus heat treatments between 400°C and 800°C focusing on elemental partitioning and the role of lattice defects on precipitation of the β phase.

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201

•Journal Article•10.3390/MA10030268

Inducing Stable α + β Microstructures during Selective Laser Melting of Ti-6Al-4V Using Intensified Intrinsic Heat Treatments

Pere Barriobero-Vila, +9 more

- 07 Mar 2017

- Materials

TL;DR: In this work, an intensified intrinsic heat treatment is applied during selective laser melting of Ti-6Al-4V powder using a scanning strategy that combines porosity-optimized processing with a very tight hatch distance, reflecting a contribution towards simultaneous selective lasers melting-manufacturing and heat treatment for fabrication ofTi-6 alumnus parts.

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•Journal Article•10.1107/S1600577520002398

A phase-retrieval toolbox for X-ray holography and tomography.

Leon M. Lohse, +6 more

- 01 May 2020

- Journal of Synchrotron Radiation

TL;DR: The package is called HoloTomoToolbox and comprises a set of algorithms for phase retrieval in the direct-contrast regime, as well as in the holographic regime, which is used for high-resolution cone-beam synchrotron recordings.

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•Journal Article•10.1039/C8CY02097C

Structure–function relationship for CO2 methanation over ceria supported Rh and Ni catalysts under atmospheric pressure conditions

Natalia M. Martin, +11 more

- 01 Apr 2019

- Catalysis Science & Technology

TL;DR: In this article, the structural and chemical state characterization of Rh/CeO2 and Ni/CEO2 catalysts during atmospheric pressure CO2 methanation has been performed by a combined array of time-resolved analytical techniques including ambient-pressure X-ray photoelectron spectroscopy, high-energy Xray diffraction and diffuse reflectance infrared Fourier transform spectroscopic analysis.

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References

Book•10.1007/B97884

Three-Dimensional X-Ray Diffraction Microscopy

Henning Friis Poulsen

- 01 Jan 2004

417

PETRA III: A low emittance synchrotron radiation source (Technical design report)

K. Balewski, +5 more

- 01 Jan 2004

TL;DR: In this paper, a new insertion device vacuum chamber was designed at the Advanced Photon Source (APS) for the double canted undulators at the Canadian Light Source (CLS) and BESSY II at the Berlin Synchrotron Radiation Source (BESSY-II).

...read moreread less

Journal Article•10.1016/S0921-4526(03)00268-0

A new X-ray transmission-reflection scheme for the study of deeply buried interfaces using high-energy microbeams

Harald Reichert, +5 more

- 01 Aug 2003

- Physica B-condensed Matter

TL;DR: In this article, a new experimental scheme for the high-resolution X-ray study of deeply buried interfaces is presented, as they occur in novel functional nanomaterials and in nature.

...read moreread less

Journal Article•10.1107/S0021889801006409

Sagittal focusing of high-energy synchrotron x-rays with asymmetric Laue crystals, I: theoretical considerations

Zhong Zhong, +3 more

- 01 Aug 2001

- Journal of Applied Crystallography

TL;DR: The ability of asymmetric Laue crystals to focus X-rays sagittally is demonstrated in this article, and the extent of such focusing is similar to that of sagittal focusing by a Bragg crystal except for a factor related to the asymmetry angle.

...read moreread less

Journal Article•10.1107/S0021889801010627

Sagittal focusing of high-energy synchrotron X-rays with asymmetric Laue crystals. II. Experimental studies

Zhong Zhong, +3 more

- 01 Oct 2001

- Journal of Applied Crystallography

TL;DR: In this article, the use of bent asymmetric Laue crystals to focus synchrotron X-rays sagittally from 15 to 50ÕkeV was described, and a four-bar bender, bending a rectangular planar crystal, produced the necessary sagittal and meridional bending for this unique application.

...read moreread less

The High Energy Materials Science Beamline (HEMS) at PETRA III

Chat with Paper

AI Agents for this Paper

Most frequently asked questions

1. What are the contributions in this paper?

2. How can the authors use the HEMS beamline?

3. What is the beamline at PETRA III?

4. What is the main purpose of the paper?

5. How much beam size should be reachable at the end of the beamline?

6. What are the design parameters of PETRA III?

7. What is the source for the HEMS?

8. What is the purpose of the paper?

9. What are the typical experiments of HEMS?

10. What is the responsibility of the HEMS?

11. What is the main infrastructure for the HEMS?

12. What are the main research areas of PETRA III?

13. What is the main beam requirement for the experimental hutch?

14. When was the reconstruction of the storage ring started?

15. How many indexed grains are shown in the Fig. 5?

Figures

Citations

Peritectic titanium alloys for 3D printing

The role of lattice defects, element partitioning and intrinsic heat effects on the microstructure in selective laser melted Ti-6Al-4V

Inducing Stable α + β Microstructures during Selective Laser Melting of Ti-6Al-4V Using Intensified Intrinsic Heat Treatments

A phase-retrieval toolbox for X-ray holography and tomography.

Structure–function relationship for CO2 methanation over ceria supported Rh and Ni catalysts under atmospheric pressure conditions

References

Three-Dimensional X-Ray Diffraction Microscopy

PETRA III: A low emittance synchrotron radiation source (Technical design report)

A new X-ray transmission-reflection scheme for the study of deeply buried interfaces using high-energy microbeams

Sagittal focusing of high-energy synchrotron x-rays with asymmetric Laue crystals, I: theoretical considerations

Sagittal focusing of high-energy synchrotron X-rays with asymmetric Laue crystals. II. Experimental studies

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