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Beamline 7-ID-B,C,D: Time Resolved Diffraction and Scattering

X-ray Science Division, APS
Materials Science, Physics, Catalysis, Chemistry

Description

Beamline 7-ID is dedicated to time-resolved research, particularly, pump-probe experiments requiring ultrafast and high-intensity lasers. Access for time-resolved spectroscopy and imaging is generally via collaboration.

Supported Techniques

Time-resolved x-ray scattering

Nano-imaging

Wide-angle x-ray scattering

Surface diffraction

Phase contrast imaging

Beamline Controls and Data Acquisition

EPICS based beam line control system with SPEC data acquisition software.

Detectors

Pixelated photon-counting area detector
Ionization chambers
Various CCD detectors
Avalanche photodiodes
Pilatus 2M
Pilatus 100K

Additional Equipment

Huber 6-circle goniometer
KB mirrors
1 KHz, 40 fs, 2.5 W Ti:Sapphire chirped pulse amplifier laser
300-2000 nm TOPAS
20 W Pharos laser system ( 1 - 200 kHz) with OPA (54 kHz)
Multimodal imaging instrument with scanning near-field optical microscope

Local Contacts

Name	HAIDAN WEN (Time-resolved x-ray diffraction microscopy)
Phone	630.252.0278
Email	wen@aps.anl.gov
Name	DONALD WALKO (Pump-probe diffraction)
Phone	630.252.0271
Email	dwalko@aps.anl.gov
Name	JIN WANG (Ultrafast imaging)
Phone	630.252.9125
Email	wangj@aps.anl.gov
Name	BURAK GUZELTURK (Time-resolved x-ray scattering and spectroscopy)
Phone	630.252.0165
Email	burakg@anl.gov
Name	DON JENSEN
Phone	630.252.8611
Email	dpjensen@aps.anl.gov
Name	RICHARD SPENCE
Phone	630.252.1290
Email	spence@aps.anl.gov
Name	XIAOYI ZHANG (TRR Group Leader)
Phone	630.252.0366
Email	xyzhang@aps.anl.gov

Beamline Specs

Source	Undulator 2.8cm - 2.4m or 2.1m length
Monochromator Type	Si(111)
Energy Range	6-18 keV
Resolution (ΔE/E)	1 x 10 ^-4
Flux (photons/sec)	3 x 10 ¹² @10 keV
Beam Size (HxV)
Focused	.9µm x .35µm
Unfocused	.5mm x .5mm
Monochromator Type	Si(311)
Energy Range	12-30 keV

For additional information see:
https://www.aps.anl.gov/Time-Resolved-Research

Current Status:

Operational/Accepting General Users

Access Mode:

On-site Remote

Selected Publications

Mesoscopic structural phase progression in photo-excited VO2 revealed by time-resolved x-ray diffraction microscopy,
Yi Zhu, Zhonghou Cai, Pice Chen, Qingteng Zhang, Matthew J. Highland, Il Woong Jung, Donald A. Walko, Eric M. Dufresne, Jaewoo Jeong, Mahesh G. Samant, Stuart S.P. Parkin, John W. Freeland, Paul G. Evans, Haidan Wen,
Scientific Reports 6, 21999 (2016).

Feasibility of Valence-to-Core X-ray Emission Spectroscopy for Tracking Transient Species,
Anne Marie March, Tadesse A. Assefa, Christian Bressler, Gilles Doumy, Andreas Galler, Wojciech Gawelda, Elliot P. Kanter, Zoltán Németh, Mátyás Pápai, Stephen H. Southworth, Linda Young, György Vankó,
Journal of Physics and Chemistry C 119, 14571 (2015).

X-ray photonic microsystems for the manipulation of synchrotron light,
D. Mukhopadhyay, D.A. Walko, I.W. Jung, C.P. Schwartz, Jin Wang, D. López, G.K. Shenoy ,
Nature Communications 6, 7057 (2015).

Picosecond x-ray strain rosette reveals direct laser excitation of coherent transverse acoustic phonons,
Sooheyong Lee, G. Jackson Williams, Maria I. Campana, Donald A. Walko, Eric C. Landahl,
Scientific Reports 6, 19140 (2016).

Experimental study on the effect of nozzle hole-to-hole angle on the near-field spray of diesel injector using fast X-ray phase-contrast imaging,
Xusheng Zhang, Seoksu Moon, Jian Gao, Eric M. Dufresne, Kamel Fezzaa, Jin Wang,
Fuel 185, 142 (2016).

Last Updated on 02/14/2025
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