Spectral Shaping of a Superluminescent Diode for Terahertz Cross-Correlation Spectroscopy

Spectral Shaping of a Superluminescent Diode for Terahertz Cross-Correlation Spectroscopy

After 20 years of terahertz cross-correlation spectroscopy (THz-CCS), the performance of the systems has been improved to practical relevance by reaching a bandwidth of ~2 THz. For the development of high-performance THz-CCS systems, it is necessary to get a deeper knowledge of the signal generation...

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Veröffentlicht in:Applied sciences 2022-02, Vol.12 (4), p.1772
Hauptverfasser: Tybussek, Kai-Henning, Kolpatzeck, Kevin, Cherniak, Vladyslav, Engelbrecht, Sebastian, Fischer, Bernd, Balzer, Jan C.
Format: Artikel
Sprache:eng
Schlagworte:
Bandwidths
Cross correlation
Diodes
Dynamic range
Experiments
Fourier transforms
Lasers
Light
Light sources
Optical filters
pulse shaping
Radiation
Signal generation
Spectroscopy
Spectrum allocation
Spectrum analysis
Superluminescent diodes
terahertz cross-correlation spectroscopy
terahertz systems
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Zusammenfassung:After 20 years of terahertz cross-correlation spectroscopy (THz-CCS), the performance of the systems has been improved to practical relevance by reaching a bandwidth of ~2 THz. For the development of high-performance THz-CCS systems, it is necessary to get a deeper knowledge of the signal generation from incoherent light sources. In this work, the bandwidth, dynamic range, and peak-to-peak amplitude of a THz-CCS systems using a superluminescent diode as light source and a programmable optical filter for spectral shaping was investigated to obtain a better understanding of the relationship between the optical spectrum and the generated terahertz spectrum. By a periodic structuring of the continuous optical spectrum, an enhancement of the peak dynamic range of more than 10 dB was achieved with a bandwidth of 1.6 THz. The experimental results are confirmed by numerical simulations.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12041772