Elettra-Sincrotrone Trieste S.C.p.A. website uses technical, analytics and third party cookies, in order to collect anonymous statistical informations.
Website navigation do not affect users' privacy during their browsing experience on our website, as they do not entail processing their personal identification data.
Session cookies are not permanently stored and indeed are cancelled when the browser has quit.
The technical cookies also improve or customise the browsing experience and are necessary to the website provided by Elettra - Sincrotrone Trieste S.C.p.A. to function properly.
More info
OK

TIMERContactsBeamline setupmini-TIMERHints for proposalsHighlightsEIS-TIMER publicationsSafety

Beamline setup

Page 4 of 5

Optical probe:

As an alternative to the FEL probing, the TG can be probed by an ultrafast optical pulse at wavelength λ_laser=785, 393 or 261 nm (see sketch); the installation of OPA and/or NOPA devices for probe pulses tunable in the UV-visible range, as well as a white-light supercontinuum source (450-720 nm) can be provided upon user request. The optical pulse can be a normal incidence (θ_laser= 0°), i.e. at the bisector of the crossed FEL beams (opt. 1), or can be tuned in the ~40°-70° range (opt. 2, NOTE: in this case 2θ-values of 79° and 105.4° are not available), with variable angles possible upon request. A breadboard with a quite large space (~0.5 m²) is installed near the end-station to host optical setups requested by users. The optically probed transient grating diffracted signal is detected by an in-vacuum CCD (link detectors). A Faraday rotation setup is aditionally available for the optical probe, for detecting the transient optical transmission at normal incidence.

The optical laser can also be used to add a pump pulse in a EUV TG experiment, if needed, or in conventional pump-probe experiments, either as a pump or a probe.

Important note

Using the optical laser as a probe for the EUV TG, the diffraction conditions are not fulfilled for λ_exc < 45 nm, even exploiting the smallest value of 2θ (18.4°) and the larger angle / shorter wavelength (θ_laser ~ 70° / λ_laser~ 260 nm) of the probing laser. This limits L_TG to above ~ 150 nm (k_TG < 0.04 nm^-1). This limitation is relaxed using the mini-TIMER setup at DiProI, which enables a much larger range in λ_exc (i.e. down to ~ 7 nm), while keeping L_TG ~ 190 nm.

SLU parameters:

Seed Laser for Users (SLU)

Laser type	Ti:Sapphire
Central Wavelength/Energy	795 [nm]
Wavelength fluctuations	1 * 10^-3 [%]
Spectral Bandwidth FWHM	18 [nm]
Tunability	1 [%]
Beam shape	Gaussian
Other beam shape	M2<1.5
Pulse duration FWHM	65 [fs]
Polarisation	Linear Horizontal, Linear Vertical, Circular
Other polarisation	All linear and circular polarizations available
Pulse repetition rate	50 [Hz]
Maximum pulse energy	1.5 * 10^-3 [J]
Pulse energy fluctuations	5 * 10^-3 [sigma]
Peak power	20 * 10⁹ [W]
Peak fluence on target	10 [J/cm2]
Special modes	2nd and 3rd harmonics (~390 and ~260 nm) available

Last Updated on Friday, 15 March 2024 21:17

Elettra-Sincrotrone Trieste S.C.p.A. di interesse nazionale
Strada Statale 14 - km 163,5 in AREA Science Park
34149 Basovizza, Trieste ITALY
Tel. +39 040 37581 - Fax. +39 040 9380902
Anagrafe Nazionale Ricerche Cod. 51779CRP
partita IVA 00697920320