Achieving integration of semiconducting and superconducting qubits with full industrial 300-mm wafer fabrication.

An ultrashort electron beam developed at Stanford is the most powerful of its kind ever created—by a factor of five—offering new possibilities for recreating cosmic conditions in laboratory ...

Preliminary results from a small clinical trial suggest that a cutting-edge genetic medicine developed by Beam Therapeutics can repair the damaged DNA that gives rise to a rare liver and lung disorder ...

For example, the Utah graded electrode array ... The Michigan array, on the other hand, has explored methods like electron beam lithography and dual-layer wiring to increase the number of ...

Scientists have created an ultrashort electron beam with five times more ... In astrophysics, for example, this beam can be directed to a solid or gas target to create a filament similar to ...

Physicists at SLAC National Accelerator Laboratory in the US have shattered the record for most powerful beam of electrons, cramming an ultra-high current of around 100,000 amps into an instant. At ...

Key Laboratory of Photochemical Conversion and Optoelectronic Materials, Technical Institute of Physics and Chemistry, University of Chinese Academy of Sciences, Chinese Academy of Sciences, Beijing ...

A laser-shaped electron beam with five times more peak current opens new possibilities in astrophysics, quantum research, and accelerator technology.

SLAC team generates 100 kiloamps of electron current in a quadrillionth o Beam compression techniques push electron speeds to 99% of light Advancements could impact plasma research, chemistry, and ...

This paper utilizes a compound optimization algorithm to design a super high frequency quartz resonator with a center frequency of 4.15GHz and successfully fabricates the device using electron beam ...