Sum-Frequency-Generation-Based Laser Sidebands for Tunable Femtosecond Raman Spectroscopy in the Ultraviolet
نویسندگان
چکیده
Femtosecond stimulated Raman spectroscopy (FSRS) is an emerging molecular structural dynamics technique for functional materials characterization typically in the visible to near-IR range. To expand its applications we have developed a versatile FSRS setup in the ultraviolet region. We use the combination of a narrowband, ~400 nm Raman pump from a home-built second harmonic bandwidth compressor and a tunable broadband probe pulse from sum-frequency-generation-based cascaded four-wave mixing (SFG-CFWM) laser sidebands in a thin BBO crystal. The ground state Raman spectrum of a laser dye Quinolon 390 in methanol that strongly absorbs at ~355 nm is systematically studied as a standard sample to provide previously unavailable spectroscopic characterization in the vibrational domain. Both the Stokes and anti-Stokes Raman spectra can be collected by selecting different orders of SFG-CFWM sidebands as the probe pulse. The stimulated Raman gain with the 402 nm Raman pump is >21 times larger than that with the 550 nm Raman pump when measured at the 1317 cm−1 peak for the aromatic ring deformation and ring-H rocking mode of the dye molecule, demonstrating that pre-resonance enhancement is effectively achieved in the unique UV-FSRS setup. This added tunability in the versatile and compact optical setup enables FSRS to better capture transient conformational snapshots of photosensitive molecules that absorb in the UV range. OPEN ACCESS Appl. Sci. 2015, 5 49
منابع مشابه
Carrier-envelope phase control of a 10 Hz, 25 TW laser for high-flux extreme ultraviolet quasi-continuum generation
Articles you may be interested in Generation of high-energy tunable multicolored femtosecond sidebands directly after a Ti:sapphire femtosecond laser Appl. A high-flux high-order harmonic source Rev. Generation of high-flux attosecond extreme ultraviolet continuum with a 10 TW laser Appl.
متن کاملGeneration of coherent and tunable ultraviolet radiation by scattering processes
Tunable, coherent radiation in the ultraviolet region has been generated by stimulated Raman scattering, by anti-Stokes Raman lasers, and by frequency-mixing processes based on nonlinear polarizabilities of atomic and molecular systems. Present progress in the development of these laser-driven sources is reviewed, with examples of available systems and their characteristics. Applications in spe...
متن کاملMulticolored Femtosecond Pulse Synthesis Using Coherent Raman Sidebands in a Reflection Scheme
Broadband coherent Raman generation emerges as a successful method to produce multicolored femtosecond pulses and time-shaped laser fields. In our study, coherent Raman sidebands are generated in a Raman-active crystal, driven by two-color femtosecond laser pulses. An interferogram of the sidebands based on coherent Raman scattering is produced in a novel reflection scheme. The relative spectra...
متن کاملTunable excitation source for coherent Raman spectroscopy based on a single fiber laser.
We demonstrate a wavelength tunable optical excitation source for coherent Raman scattering (CRS) spectroscopy based on a single femtosecond fiber laser. Electrically controlled wavelength tuning of Stokes optical pulses was achieved with soliton self frequency shift in an optical fiber, and linear frequency chirping was applied to both the pump and the Stokes waves to significantly improve the...
متن کاملGeneration of vacuum ultraviolet radiation by sum frequency mixing of a femtosecond and a nanosecond laser
Ž . The interaction of high-intensity short pulse fs lasers with atomic or molecular vapors permits the conversion of visible light to intense coherent radiation in the vacuum ultraviolet spectral region. We demonstrate sum frequency mixing of a Ž . Ž . high-intensity short pulse fs laser with a conventional long pulse ns laser to extend the accessible wavelength range of harmonic generation. T...
متن کامل