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Microsystem Light Source at 488 nm for Shifted Excitation Resonance Raman Difference Spectroscopy

A microsystem light source emitting at 488 nm was tested and applied as a light source for shifted excitation resonance Raman difference spectroscopy (SERRDS). A nonlinear frequency conversion using a distributed feedback (DFB) diode laser emission at 976 nm and a periodically poled lithium niobate...

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Published in:	Applied spectroscopy 2009-11, Vol.63 (11), p.1283-1287
Main Authors:	Maiwald, Martin, Schmidt, Heinar, Sumpf, Bernd, Güther, Reiner, Erbert, Götz, Kronfeldt, Heinz-Detlef, Tränkle, Günther
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Language:	English
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creator	Maiwald, Martin Schmidt, Heinar Sumpf, Bernd Güther, Reiner Erbert, Götz Kronfeldt, Heinz-Detlef Tränkle, Günther
description	A microsystem light source emitting at 488 nm was tested and applied as a light source for shifted excitation resonance Raman difference spectroscopy (SERRDS). A nonlinear frequency conversion using a distributed feedback (DFB) diode laser emission at 976 nm and a periodically poled lithium niobate (PPLN) waveguide crystal was realized on a micro-optical bench with a footprint of 25 mm × 5 mm. Joint temperature management via the microbench is used for wavelength tuning. Two emission lines at 487.61 nm and 487.91 nm are used for the SERRDS experiments. The Raman spectra of the test sample polystyrene demonstrate that a laser bandpass filter did not need to be implemented. Resonance Raman spectra of Tartrazine (FD&C Yellow 5, E 102) in distilled water are presented to demonstrate the suitability of this light source for SERRDS in, e.g., food safety control.
doi_str_mv	10.1366/000370209789806803
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title	Microsystem Light Source at 488 nm for Shifted Excitation Resonance Raman Difference Spectroscopy
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