Add to ORKGUsing focused subnanosecond laser pulses at 1.064μm wavelength, modification of silicon into opaque state was induced. While silicon exhibits one-photon absorption at this wavelength, the modification was induced inside 300μm-thick silicon substrate without damaging top or bottom surfaces. The depth range of the focus position was investigated where inside of the substrate can be modified without damaging the surfaces. Using this technique, diffraction gratings were inscribed inside silicon substrate. Diffraction from the gratings were observed, and the diffraction angle well agreed with the theoretical value. These results demonstrate that this technique could be used for fabricating infrared optical elements in silicon
Silicon (Si) is widely used material in microelectronics, MEMS, photonics and more. Although Si is n...
Semiconductors such as Si and GaAs are transparent to infrared laser radiation with wavelengths \u3e...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...
International audienceDiffraction gratings are transversally inscribed in the bulk of monolithic cry...
Nonlinear optical phenomena in silicon such as self-focusing and multi-photon absorption are strongl...
Summary form only given. Photonic devices that can guide, transfer or modulate light are highly desi...
Integrated optics in silicon is interesting for various optoelectronic devices, since photonics and ...
International audienceRecent demonstrations of internal structuring of silicon have open new perspec...
Photonic devices that can guide, transfer, or modulate light are highly desired in electronics and i...
11th ASME International Manufacturing Science and Engineering Conference (MSEC 2016), Blacksburg, VA...
We introduce a novel method of optically inducing microsized subsurface structures using non-linear ...
International audienceDirect three-dimensional (3D) laser writing of waveguides is highly advanced i...
Doctor of PhilosophyDepartment of Industrial & Manufacturing Systems EngineeringShuting LeiSilicon i...
We introduce a device based on subwavelength resonant grating technology. Using a single lithography...
Citation: Grojo, D., Mouskeftaras, A., Delaporte, P., & Lei, S. T. (2015). Limitations to laser mach...
Silicon (Si) is widely used material in microelectronics, MEMS, photonics and more. Although Si is n...
Semiconductors such as Si and GaAs are transparent to infrared laser radiation with wavelengths \u3e...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...
International audienceDiffraction gratings are transversally inscribed in the bulk of monolithic cry...
Nonlinear optical phenomena in silicon such as self-focusing and multi-photon absorption are strongl...
Summary form only given. Photonic devices that can guide, transfer or modulate light are highly desi...
Integrated optics in silicon is interesting for various optoelectronic devices, since photonics and ...
International audienceRecent demonstrations of internal structuring of silicon have open new perspec...
Photonic devices that can guide, transfer, or modulate light are highly desired in electronics and i...
11th ASME International Manufacturing Science and Engineering Conference (MSEC 2016), Blacksburg, VA...
We introduce a novel method of optically inducing microsized subsurface structures using non-linear ...
International audienceDirect three-dimensional (3D) laser writing of waveguides is highly advanced i...
Doctor of PhilosophyDepartment of Industrial & Manufacturing Systems EngineeringShuting LeiSilicon i...
We introduce a device based on subwavelength resonant grating technology. Using a single lithography...
Citation: Grojo, D., Mouskeftaras, A., Delaporte, P., & Lei, S. T. (2015). Limitations to laser mach...
Silicon (Si) is widely used material in microelectronics, MEMS, photonics and more. Although Si is n...
Semiconductors such as Si and GaAs are transparent to infrared laser radiation with wavelengths \u3e...
International audienceAn important challenge in the field of three-dimensional ultrafast laser proce...