Difference between revisions of "CHX"

From GISAXS
Jump to: navigation, search
(See Also)
Line 1: Line 1:
 +
[[Image:logo_CHX_20.png|thumb|200px|right]]
 +
 
The '''Coherent Hard X-ray''' ('''CHX''') [[beamline]] at [[NSLS-II]] is a [[synchrotron]] [[undulator]]-based instrument dedicated to nanometer-scale dynamics. It sits at beamport 11-[[Insertion device|ID]]. The instrument is primarily focused on enabling [[XPCS]] (X-ray Photon Correlation Spectroscopy) measurements of [[coherent speckle|speckle]] fluctuation; measurement of the time correlation function can be used to quantify dynamics. Due to the high coherent brightness of the NSLS-II storage ring, CHX will enable measurements over timescales previously inaccessible.
 
The '''Coherent Hard X-ray''' ('''CHX''') [[beamline]] at [[NSLS-II]] is a [[synchrotron]] [[undulator]]-based instrument dedicated to nanometer-scale dynamics. It sits at beamport 11-[[Insertion device|ID]]. The instrument is primarily focused on enabling [[XPCS]] (X-ray Photon Correlation Spectroscopy) measurements of [[coherent speckle|speckle]] fluctuation; measurement of the time correlation function can be used to quantify dynamics. Due to the high coherent brightness of the NSLS-II storage ring, CHX will enable measurements over timescales previously inaccessible.
  

Revision as of 15:59, 14 September 2015

Logo CHX 20.png

The Coherent Hard X-ray (CHX) beamline at NSLS-II is a synchrotron undulator-based instrument dedicated to nanometer-scale dynamics. It sits at beamport 11-ID. The instrument is primarily focused on enabling XPCS (X-ray Photon Correlation Spectroscopy) measurements of speckle fluctuation; measurement of the time correlation function can be used to quantify dynamics. Due to the high coherent brightness of the NSLS-II storage ring, CHX will enable measurements over timescales previously inaccessible.

Although CHX is focused on XPCS, it is also capable of exploiting its high beam coherence in other ways, such as coherent scattering or CDI. Additionally, the beamline is capable of more traditional scattering experiments, such as SAXS and WAXS.

Capabilities

CHX can perform a variety of experiments:

Performance

Energy

q-range

TBD

Resolution

TBD

Flux

  • ~1010 ph/s/0.01%bw

Beam Size

  • Unfocused beam sizes ~200 µm
  • Focusing (H and V) available to ~10 µm (ultimate goal ~2 µm)

Access

CHX is currently commissioning. In the future, access will be possible through the NSLS-II proposal system. Interested users should contact beamline staff.

See Also