The devices and tools used in medicine are becoming smaller. They have greater functionality and are expected to last longer than earlier devices. Design, manufacturing, and packaging the devices and ...

Laser processing of silicon materials has emerged as a transformative technique in microelectronics and photonics, enabling precise internal modifications that bypass the limitations of traditional ...

・Laser Photonics is expanding across aerospace, defense and industrial markets with proprietary laser technologies ・Backlog has grown to approximately $2.5 million, supporting near-term revenue ...

Thanks to a Moore’s law rate of improvement in the bang-per-buck of GaAs diode lasers, cleaning and heating join a growing ...

Lasers are an essential tool for materials processing. They can be used to cut, weld and remove material. A special kind of lasers known as femtosecond lasers can be used to create high-precision ...

Scientists have pioneered a way to make integrated circuits for light by depositing complex patterns of specialized materials ...

Just as embroiderers, with needle and thread, can transform plain fabric into an intricate pattern, engineers can use lasers and polymers to create flexible, complex structures that could transform ...

Computer chips that cram billions of electronic devices into a few square inches have powered the digital economy and ...

Engineers use laser patterning and iron-oxide ink to control graphene growth on polymers, creating flexible microelectrodes that detect dopamine and serotonin.

This article explores how laser cutting and mechanical punching perform when used in electrode manufacturing and other foil-based applications in terms of speed, edge quality, material compatibility ...

Laser Center Hannover (LZH) has developed a laser-based process that can defuse non-transportable, primed munitions ...