Synchrotron beamlines and their instruments are built to harness the photon beam power of synchrotron radiation (SR), which has special properties -- ideally suited to providing detailed and accurate ...

New research paper titled “Mapping of the mechanical response in Si/SiGe nanosheet device geometries” from researchers at IBM T.J. Watson Research Center and Brookhaven National Laboratory. Sponsored ...

Scientists have used single-crystal synchrotron X-ray diffraction measurements to establish the electron density of TiS2. Given the broad range of applications for 2-D materials, this fundamental ...

A recent article in Materials & Design presented an in-situ study of compression creep and stress relaxation in a Fe-based shape memory alloy (Fe-SMA; Fe-17Mn-5Si-10Cr-4Ni-1(V,C)) using high-energy ...

Plans for Japan's high-energy 4th generation synchrotron promise to accelerate green innovation along with electrons. Synchrotron radiation is essential to nanoscience. As nanoscale production ...

Andrew Peele works for the Australian Synchrotron on secondment from La Trobe University. He receives funding from the ARC. Nancy Mills works for the Australian Synchrotron. Science is like ...

Ok yes, I am biased. Those of you who’ve read my column before will recall that I was a post-doc at the Australian Synchrotron and I currently work for the Australian Nuclear Science and Technology ...

Synchrotron beamlines and their instruments are built to harness the photon beam power of synchrotron radiation (SR), which has special properties - ideally suited to providing detailed and accurate ...

(Nanowerk News) The discovery of graphene, with its high strength-to-weight ratio, flexibility, electrical conductivity, and ability to form an impenetrable barrier, led to an explosion of interest in ...