Abstract: We generated laser power of 1.16PW from a Ti:sapphire laser facility by using a combined scheme of doubled chirped-pulse amplifier (DCPA) and non-collinear optical parametrical amplifier ...

A robust, miniature Ti:sapphire laser system produces 18.4-/spl mu/J, 780-nm pulses of 700-ps duration and 0.17-nm linewidth at 8 kHz. The system is pumped by two fiber-coupled 808-nm laser diode ...

Researchers say their prototype laser on a chip is 10,000 times smaller and 1,000 times less expensive than previous iterations. Shrinking the Ti:Sapphire Laser lead image American Institute of ...

This democratizes Ti:sapphire lasers.” Innovations in Manufacturing To fashion the new laser, the researchers began with a bulk layer of Titanium-sapphire on a platform of silicon dioxide (SiO 2), all ...

The new laser leans against a block of titanium-sapphire. Researchers at Stanford University, California, have developed and built a Ti:sapphire laser on a chip. The prototype is four orders of ...

This democratizes Ti:sapphire lasers.” How it’s done To fashion the new laser, the researchers began with a bulk layer of Titanium-sapphire on a platform of silicon dioxide (SiO2), all riding atop ...

With a single leap from tabletop to the microscale, engineers at Stanford have produced the world’s first practical Titanium-sapphire laser on a chip, democratizing a once-exclusive technology.

Coherently tiled titanium:sapphire laser amplification provides a relatively easy and inexpensive way to surpass the current 10-petawatt limit.

Reference: “Coherently tiled Ti:sapphire laser amplification: a way to break the 10 petawatt limit on current ultraintense lasers” by Yanqi Liu, Keyang Liu, Zhaoyang Li, Yuxin Leng and Ruxin Li, 23 ...