Consequently, a gallium arsenide wafer, or substrate, is semi-insulating, whereas a silicon wafer is semi-conducting. Gallium arsenide also offers a wider range of operating temperatures than silicon ...

The most optimal material for solid-state lasers in photonics is gallium-arsenide (GaAs), but due ... grown on industry-standard 300 mm silicon wafers. The trick was to accept the lattice mismatch ...

Hundreds of decommissioned manufacturing tools from Ubiquity Solar, including semiconductor and photovoltaic production lines ...

Also available are patents (nearly 200 in all) and intellectual property (IP) assets related to the high-tech manufacture of gallium arsenide wafers. "With its PV technology products, Ubiquity Solar ...

Engineers can bond gallium arsenide dies or small wafers to silicon waveguides, then build the lasers on top, a process that requires specialized equipment and results in material waste.

Gallium arsenide is then deposited into these trenches ... V nano-ridge engineering concept to demonstrate the first full wafer-scale fabrication of electrically pumped GaAs-based lasers on ...

The most optimal material for solid-state lasers in photonics is gallium-arsenide (GaAs), but due ... grown on industry-standard 300 mm silicon wafers. The trick was to accept the lattice mismatch ...

An international research group has utilized a new porosification technique to build gallium arsenide (GaAs ... cells on porosified 100 mm Ge wafers not only matches but surpasses state-of ...

but its parent Sino-American Silicon's sales dipped 1% due to slowdown in gallium arsenide operations. Gross margin of both firms improved marginally to 30% as silicon wafer factory utilization ...