Add to ORKGFemtosecond laser pulses are ideal for many precise and delicate laser processing applications. In this work, we demonstrate that femtosecond laser pulses can be used to produce microscopic holes (\u3c100μm diameter) with macroscopic depth (\u3e1mm) in silicate glasses at atmospheric pressures. These experiments indicate that self-focusing is an important factor affecting hole depth at high laser intensity. © 2001 Elsevier Science B.V. All rights reserved
We present images of microholes drilled in diamond using a homemade femtosecond Yb: KGW laser. We us...
We investigated the influence of the pulse duration on the laser drilling process in the femtosecond...
We report experimental results of drilling micro holes in Al, Mo, Ti, Cu, Ag, Au, and brass thin met...
Femtosecond laser pulses are ideal for many precise and delicate laser processing applications. In t...
Many recent investigations of micromachining with lasers, in vacuum and in ambient air environments,...
Many recent investigations of micromachining with lasers, in vacuum and in ambient air environments,...
Because of the unique laser-matter interaction processes involved, femtosecond laser micro-machining...
We describe several approaches to basic femtosecond machining and materials processing that should l...
We describe several approaches to basic femtosecond machining and materials processing that should l...
The femtosecond laser is an advantageous tool for manipulating matter on small scales as it can prec...
We report investigation of light-induced damage threshold (LIDT) in purified silica (transmission ba...
A free-electron laser (FEL) is a robust tool for studying the interaction of intense X-ray with matt...
Precision machining of micro holes and channels on glass has attracted great interest due to its hig...
The authors characterize femtosecond laser single-pulse machining of deep, micrometer-diameter holes...
The ability of 8 picosecond pulse lasers for three dimensional direct-writing in the bulk of transpa...
We present images of microholes drilled in diamond using a homemade femtosecond Yb: KGW laser. We us...
We investigated the influence of the pulse duration on the laser drilling process in the femtosecond...
We report experimental results of drilling micro holes in Al, Mo, Ti, Cu, Ag, Au, and brass thin met...
Femtosecond laser pulses are ideal for many precise and delicate laser processing applications. In t...
Many recent investigations of micromachining with lasers, in vacuum and in ambient air environments,...
Many recent investigations of micromachining with lasers, in vacuum and in ambient air environments,...
Because of the unique laser-matter interaction processes involved, femtosecond laser micro-machining...
We describe several approaches to basic femtosecond machining and materials processing that should l...
We describe several approaches to basic femtosecond machining and materials processing that should l...
The femtosecond laser is an advantageous tool for manipulating matter on small scales as it can prec...
We report investigation of light-induced damage threshold (LIDT) in purified silica (transmission ba...
A free-electron laser (FEL) is a robust tool for studying the interaction of intense X-ray with matt...
Precision machining of micro holes and channels on glass has attracted great interest due to its hig...
The authors characterize femtosecond laser single-pulse machining of deep, micrometer-diameter holes...
The ability of 8 picosecond pulse lasers for three dimensional direct-writing in the bulk of transpa...
We present images of microholes drilled in diamond using a homemade femtosecond Yb: KGW laser. We us...
We investigated the influence of the pulse duration on the laser drilling process in the femtosecond...
We report experimental results of drilling micro holes in Al, Mo, Ti, Cu, Ag, Au, and brass thin met...