Spezifikationen

Beschreibung

Frequency comb technology makes direct measurement of absolute optical frequencies possible. With the Mid-IR Comb system we have extended the wavelength coverage into the Mid-IR spectral region. The mode frequencies are completely defined by the repetition rate only, as the carrier envelope offset frequency vanishes in a difference frequency generation process. Such, the turn-key Mid-IR Comb is the perfect tool for high accuracy spectroscopy in the fingerprint region of many molecules.

Ähnliche Applikationen

• Mid-IR spectroscopy
• High resolution spectroscopy
• Length metrology
• Dual comb spectroscopy
• Differential absorption LIDAR

Application Notes

• SCIENTIFIC PUBLICATION: 20 Years and 20 Decimal Digits: A Journey With Optical Frequency Combs
• SCIENTIFIC PUBLICATION: Probing methane in air with a midinfrared frequency comb source
• SCIENTIFIC PUBLICATION: Mid-infrared frequency combs
• SCIENTIFIC PUBLICATION: High-power mid-infrared frequency comb source based on a femtosecond Er:fiber oscillator
• SCIENTIFIC PUBLICATION: A rapid, spatially dispersive frequency comb spectrograph aimed at gas phase chemical reaction kinetics
• SCIENTIFIC PUBLICATION: High-power frequency comb source tunable from 2.7 to 4.2 μm based on difference frequency generation pumped by an Yb-doped fiber laser
• SCIENTIFIC PUBLICATION: Optical frequency comb-based measurements and the revisited assignment of high-resolution spectra of CH_2Br_2 in the 2960 to 3120 cm^(−1) region
• SCIENTIFIC PUBLICATION: Infrared frequency comb spectroscopy of CH2I2: Influence of hot bands and pressure broadening on the ν1 and ν6 fundamental transitions
• SCIENTIFIC PUBLICATION: Cavity-enhanced dual-comb spectroscopy
• SCIENTIFIC PUBLICATION: Optical frequency metrology
• SCIENTIFIC PUBLICATION: All polarization‑maintaining fiber laser architecture for robust femtosecond pulse generation