Molecular beam epitaxy (MBE) is a precision epitaxial growth technique that permits atomic‐scale tailoring of semiconductor structures. By directing beams of elemental or compound sources onto heated ...

The Molecular Beam Epitaxy (MBE) System is used to grow semiconductors from group II (Zn, Mg) and group VI (Te, O) elemental sources in an ultrahigh vacuum environment. Dopants include (N, B, Ga, In, ...

Scientists at Cornell Engineering have found a way to make a thin film material expand and contract billions of times per ...

KALAMAZOO, Mich.—Western Michigan University doctoral student Andrew Messecar received an Outstanding Student Poster Award at the 37th North American Molecular Beam Epitaxy Conference (NAMBE 2023) ...

RIBER has received an order for a Compact 21 DZ research system from Academia Sinica, Research Center for Critical Issues based in Taiwan. This research center plans to deploy the new equipment in ...

Organic molecular beam deposition (OMBD) is a versatile technique for fabricating high-quality organic thin films and nanostructures with precise control over thickness, composition, and molecular ...

Cornell Engineering researchers have demonstrated that, by zapping a synthetic thin film with ultrafast pulses of ...

The world of physics is being redefined with the creation of an extraordinary material that challenges the established laws of matter. This groundbreaking innovation merges two materials previously ...

Soon after the initial discovery of the Hall effect, scientists noticed that magnetic materials exhibited a similar phenomenon—this was coined the anomalous Hall effect (AHE).

Bezons (France), 8 September 2025 – 8:00 am - RIBER, a global market leader in molecular beam epitaxy (MBE) equipment for the semiconductor industry, announces a new order for a ROSIE system from a ...