The samples were grown with single atomic layer precision using molecular beam
epitaxy at Argonne's Center for Nanoscale Materials, a DOE Office of Science User Facility, by postdoctoral researcher and first author on the study Jason Hoffman.
Not exact matches
The researchers
at first fabricated high - quality, atomically thin FeSe films, with thickness of between one monolayer (which corresponds to three - atoms thickness) and twenty monolayers (sixty - atoms thickness), by using the molecular - beam -
epitaxy (MBE) method * 3.
Shujie Tang, a visiting postdoctoral researcher
at Berkeley Lab and Stanford University, and a co-lead author in the study, was instrumental in growing 3 - atom - thick crystalline samples of the material in a highly purified, vacuum - sealed compartment
at the ALS, using a process known as molecular beam
epitaxy.
Mercury telluride crystals are difficult to obtain — they have to be grown one layer
at a time using a laborious process known as molecular beam
epitaxy — and they are not pure topological insulators because they conduct some electricity on their inside.
The layers were created using the molecular beam
epitaxy instrument
at EMSL, a DOE scientific user facility.
They use a technique called molecular beam
epitaxy (MBE) to assemble complex oxides one atomic layer
at a time.
The team employed molecular beam
epitaxy and other resources in the Department of Energy's EMSL, a national scientific user facility
at PNNL, to measure the slope of the hill under different circumstances.
He was a research scientist for 10 years
at Bell Labs, working on nontrivial topics such as Molecular Beam
Epitaxy, high - temperature superconductors, gallium nitride and — here's where we come in — electronic publishing.