–IR spectroscopy (1 and 2D) Femtosecond mid IR spectroscopy is a tool for the study of bonds of molecular and solid state systems. The vibrational spectra are recorded with fs time resolutions. That allows us to follow conformational changes such as isomerization, bond breaking, bond formation, solvent dynamics etc.…

Ultrafastoptics

Pump beams for photoactivations Pump beams synchronized with main photon beams will be serve for pump-probe experiments to investigate dynamical processes in matter. They will allow flexible configuration at different locations in the E1 hall, covering wavelengths from UV and visible to IR, and THz.

-Pulse shaping and coherent control Pulse shaping is a technique that allows to model spectral and temporal profile of the pulse. This has versatile applications in fields such as multidimensional spectroscopy, coherent control, and spatial and temporal signal encoding etc.

Ultrafast spectroscopyppt

2D IR spectroscopy is a technique for observing the presence and dynamics of cross-peaks expression of relations between individual bonds, with femtosecond resolution. Such an experiment is an IR-optical analogue of 2D NMR experiments, and likewise it produces richer data in structure.

Ultrafast spectroscopywikipedia

Stimulated Raman probe: Time resolution                      ~100fs Spectral resolution                 ~1 cm-1 Observed spectral window    30 – 4000 cm-1 Raman pulse wavelength       760-840 nm

Optical transient absorption Optical transient absorption spectroscopy is an experiment where changes in the sample absorbance are recorded with high time resolutions. It is a very robust technique for the characterization of excited and transient states of molecules, atoms and materials.

Ultrafastlaserspectroscopy

Triggering pulse pump: Time resolutions                    ~ 30fs Spectrum                                ~ 50 nm Available wavelengths           266 nm, 400 nm, 800 nm (being extended to 230-2600 nm) Pump-probe delay                  0 – 6 ns, 10 fs resolution

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Ultrafast spectroscopyslideshare

Ultrafast spectroscopypdf

Triggering pulse pump: Time resolutions                    ~ 30fs Spectrum                                ~ 50 nm Available wavelengths           266 nm, 400 nm, 800 nm (being extended to 230-2600 nm) Pump-probe delay                  0 – 6 ns, 10 fs resolution

Ultrafast spectroscopyprinciple

Shaping pulse properties: Time resolution                                              ~5fs Spectral resolution                                         Tunable down to ~0.1 cm-1 Available spectra window                              266 nm – 2600 nm Maximal “pulse shaping generated delay”    10ps

Pump-probe spectroscopic ellipsometry Also located at the experimental cluster for optical spectroscopy is the station for pump-probe spectroscopic ellipsomety. This station is presented in the section for Soft X-ray material science and time-resolved ellipsometry.  (link to this section)

Femtosecond stimulated Raman spectroscopy allows monitoring Raman vibrational spectra of molecules with sub-ps time resolution. When used with reactions that can be triggered, ideally photo-triggered, it is powerful tool to follow reaction dynamics and structural changes with high time resolution and high speed of acquisition.

It is used for measuring various physical parameters such as stress, temperature, vibration, acceleration, etc. in structures

Ultrafast Spectroscopyapplication

Along with high power fibre laser resonators, Ermaksan also offers medium and high power fibre laser modules to the market. You can easily adapt Ermaksan fibre laser modules to your existing structure with their communication and connection interface suitable for use in different processes and sectors, their compact dimensions and rack-standard chassis structure.

Fig: Top: Set up for fs Stimulated Raman Scattering in operation in the E1 experimental hall. Bottom: Set up for pulse shaping in operation together with a time-of-flight mass spectrometer during a user experiment where the effect of shaped pulses on catalytic reactions were investigated.

Triggering pulse pump: Time resolutions                    ~ 30fs Spectrum                                ~ 50 nm Available wavelengths           266 nm, 400 nm, 800 nm (being extended to 230-2600 nm) Pump-probe delay                  0 – 6 ns, 10 fs resolution