Difference between revisions of "34-ID-E"

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* Who built 34ID-E? ''See: [[History of Beamline 34ID-E]]''
* Who built 34ID-E? Is the beamline more than 300 years old? ''See: [[History of Beamline 34ID-E]]''

* [[34ID-E Coordinate Systems]]
* [[34ID-E Coordinate Systems]]

Revision as of 20:24, 9 August 2013

Welcome to 34ID-E Wiki.


34ID-E is an undulator beamline dedicated to x-ray micro/nano-diffraction activities at the Advanced Photon Source (APS).

The x-ray micro/nano-diffraction facility focuses x-ray beam to smaller than 0.5μm × 0.5μm for use in diffraction techniques using Kirkpatrick-Baez (K-B) mirrors. A specially designed micro-monochromator allows the selection of either polychromatic or monochromatic conditions with a fixed focal spot on the sample.

Polychromatic x-ray microscopy utilizes Laue diffraction method to characterize crystalline structure in materials. By scanning a differential aperture, spatially resolved microdiffraction measurements can be made in all three dimensions with sub-μm resolution. Properties that can be measured include the local crystalline phase, local texture (orientation), and the local strains.

34ID-E is part of Sector 34ID, which has, after a canting upgrade in 2011, two independently-operated undulators placed in tandem along the ring. X-rays generated by them are horizontally separated. 34ID-E takes the inboard beam, while the outboard beam goes into 34ID-C for coherent diffraction imaging experiments.

The development of the microbeam experimental capabilities were sponsored by the DOE Office of Science.

Beam Parameters
Source Type Undulator A, 3.3 cm period, 2.2 m
Energy Range 7 - 30 keV
Beam Size 300 - 500 nm (H) × 300 - 700 nm (V)
Energy Resolution (ΔE/E) 1 × 10-4
Beam Flux (photons/sec) 1 × 1011 (white)
1 × 109 (mono)

 (Beamline Diagram to be placed here)



Beamline Control

Data Analysis

  • Analysis and visualization are mostly done with LaueGo, a package developed at 34ID-E based on IGOR Pro, runs on any PC or Mac.
  • Data from depth-resolved measurements requires reconstruction, which is carried out by a multi-node Linux cluster at APS.

External Links