Add to ORKG11th ASME International Manufacturing Science and Engineering Conference (MSEC 2016), Blacksburg, VA, JUN 27-JUL 01, 2016International audienceMotivated by previous work on three-dimensional (3D) fabrication inside dielectrics, we report experimental results of 3D modification inside intrinsic silicon wafers using laser pulses with 1.55 gm wavelength and 3.5 ns pulse duration. Permanent modification in the form of lines is generated inside silicon by tightly focusing and continuously scanning the laser beam inside samples, without introducing surface damage. Cross sections of these lines are observed after cleaving the samples, and are further analyzed after mechanical polishing followed by chemical etching. With the objective lens correcte...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...
Silicon nanostructures serve as the backbone of modern electronics and photonics. Particularly, sili...
We report a novel, polarization dependent, femtosecond laser- induced modification of surface nanost...
International audienceRecent demonstrations of internal structuring of silicon have open new perspec...
International audienceThe advent of ultrafast infrared lasers provides a unique opportunity for dire...
Using focused subnanosecond laser pulses at 1.064μm wavelength, modification of silicon into opaque ...
Silicon (Si) is widely used material in microelectronics, MEMS, photonics and more. Although Si is n...
International audienceWe have demonstrated for the first time the permanent local modification of th...
In this work, we demonstrate use of laser-induced silicon slicing (LASIS) technique to fabricate cry...
International audienceDirect three-dimensional (3D) laser writing of waveguides is highly advanced i...
Doctor of PhilosophyDepartment of Industrial & Manufacturing Systems EngineeringShuting LeiSilicon i...
Abstract Silicon wafer thinning is now approaching fundamental limits for wafer thickness owing to t...
Cataloged from PDF version of thesis.Includes bibliographical references (leaves 44-48).Thesis (Mast...
In recent years, a major push was made for the use of novel laser sources in the processing of semic...
International audienceUltrashort laser-induced modification of silicon is a process of great interes...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...
Silicon nanostructures serve as the backbone of modern electronics and photonics. Particularly, sili...
We report a novel, polarization dependent, femtosecond laser- induced modification of surface nanost...
International audienceRecent demonstrations of internal structuring of silicon have open new perspec...
International audienceThe advent of ultrafast infrared lasers provides a unique opportunity for dire...
Using focused subnanosecond laser pulses at 1.064μm wavelength, modification of silicon into opaque ...
Silicon (Si) is widely used material in microelectronics, MEMS, photonics and more. Although Si is n...
International audienceWe have demonstrated for the first time the permanent local modification of th...
In this work, we demonstrate use of laser-induced silicon slicing (LASIS) technique to fabricate cry...
International audienceDirect three-dimensional (3D) laser writing of waveguides is highly advanced i...
Doctor of PhilosophyDepartment of Industrial & Manufacturing Systems EngineeringShuting LeiSilicon i...
Abstract Silicon wafer thinning is now approaching fundamental limits for wafer thickness owing to t...
Cataloged from PDF version of thesis.Includes bibliographical references (leaves 44-48).Thesis (Mast...
In recent years, a major push was made for the use of novel laser sources in the processing of semic...
International audienceUltrashort laser-induced modification of silicon is a process of great interes...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...
Silicon nanostructures serve as the backbone of modern electronics and photonics. Particularly, sili...
We report a novel, polarization dependent, femtosecond laser- induced modification of surface nanost...