Pulsed Operation of MEMS Interferometers
Ahmed Mohammed Ahmed Sayed Othman;
Abstract
Thesis Summary
The use of pulsed sources in FTIR spectroscopy has many advantages over the continuous wave thermal light sources. These sources have high power allowing their use in high-loss systems, and new kinds of spectroscopic measurements that rely on high peak power are enabled. In addition, the use of pulsed sources such as supercontinuum fiber lasers with high-speed MEMS-based FTIR spectrometers is of a great interest for nonlinear spectroscopy applications such as two-photon fluorescence, second harmonic generation spectroscopy and coherent anti-Stokes Raman spectroscopy.
The use of pulsed sources in FTIR spectroscopy has many advantages over the continuous wave thermal light sources. These sources have high power allowing their use in high-loss systems, and new kinds of spectroscopic measurements that rely on high peak power are enabled. In addition, the use of pulsed sources such as supercontinuum fiber lasers with high-speed MEMS-based FTIR spectrometers is of a great interest for nonlinear spectroscopy applications such as two-photon fluorescence, second harmonic generation spectroscopy and coherent anti-Stokes Raman spectroscopy.
Other data
| Title | Pulsed Operation of MEMS Interferometers | Other Titles | التشغيل النبضي لمتداخل الموجات المصنع بتكنولوجيا النظم الكهروميكانيكية المايكرومترية | Authors | Ahmed Mohammed Ahmed Sayed Othman | Issue Date | 2018 |
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