When the Ti:Sapphire laser was first invented, it took the research community by storm. Today, it has an important role in imaging, spectroscopy and many other applications. Ti:Sapphire (Ti ...

In a dramatic leap forward in scale, efficiency, and cost, researchers at Stanford University have built a Ti:sapphire laser on a chip. The prototype is four orders of magnitude smaller (10,000x ...

Researchers have achieved a potentially groundbreaking innovation in laser technology by developing a titanium-sapphire (Ti:sapphire) laser on a chip. This new prototype is dramatically smaller ...

The pumping mechanism is the radiation from a powerful light source, such as a flash lamp. Laser material choices for solid state lasers include Nd: Yag, ND: YVO 4, Nd: YLF, Alexandrite, and Ti: ...

Quantronix manufactures high-power Nd:YAG/Nd:YLF lamp-pumped and diode-pumped lasers, Ti:Sapphire amplifiers, computer-controlled ultrafast optical parametric amplifiers and custom laser systems for ...

Description: EKSMA OPTICS offers Zero Order Dual Wavelength Plates for Ti:Sapphire and Yb:KGW/KYW lasers. When optical axis is turned by 45 degrees to input polarization, zero order dual wavelength ...

However, many pulsed light sources, like the common Titanium:Sapphire laser (Ti:Sa), emit light in the visible or infrared spectral range. In order to access more tightly bound electronic states or ...