The researchers used an advanced
synchrotron measurement setup developed in their previous studies to show that slightly varying the composition of an alloy dramatically changed its response to the laser pulse.
The synchrotron measurements were funded in part by the National Science Foundation under DMR 1409912.
Not exact matches
It is only through the precise
measurements that we undertake at the Diamond
Synchrotron Lightsource in the UK and the Stanford
Synchrotron Lightsource in the US that we were able to make such judgments.»
This calculation method enabled us to more accurately perform theoretical prediction of IMFP compared to the experimental value, which was obtained by applying spectrometry (extended X ‐ ray absorption fine structure spectrometry) to low - speed electrons of Copper and molybdenum at the high - brilliant
synchrotron radiation facility, and to explain the relationship between energy
measurement and the types of materials.
«On first sight, zirconium pentatelluride did not even look like a 3D material,» said Brookhaven physicist Tonica Valla, who performed the
measurements with collaborators at the Advanced Light Source (ALS) at Lawrence Berkeley National Laboratory and at Brookhaven's National
Synchrotron Light Source (NSLS, https://www.bnl.gov/ps/nsls/about-NSLS.asp)-- two additional DOE Office of Science User Facilities.
If a sample is radiation - sensitive, it can be difficult to do the experiment at a
synchrotron, where X-ray pulses tend to be longer and samples may be damaged during the
measurement.
This large anisotropy leads to a remarkable magnetic moment, which has been determined with
synchrotron - based
measurements at the X-Treme beamline at the Swiss Light Source.
Eric Dooryhee explains that a
synchrotron is an exceptionally powerful source of light (from x-rays to infrared), which permits fast, sensitive experiments to be done without damage on minute samples of objects, using a range of analytical techniques and allowing
measurements to be made below the surface.
With the combination of in situ
synchrotron infrared spectroscopic
measurements carried out at high pressure, and ab initio calculations on the ferromagnesite structure, it was possible to identify a unique vibrational signature present only in the high - pressure phase, and thus a new carbon - oxygen bond forms in ferromagnesite under pressure.
AP - XPS
measurements were carried out at the beamline X1A1 of the National
Synchrotron Light Source (NSLS) and the Coherent Soft X-ray Scattering and Spectroscopy beamline (CSX - 2) of the National
Synchrotron Light Source II (NSLS - II).