Following the EU Terahertz (THz) Road Map [1], high-intensity, ps-long, THz)/Infrared (IR) radiation is going to become a fundamental spectroscopy tool for probing and control quantum materials ranging from graphene [2], and Topological Insulators, to strongly correlated oxides [3-6] and novel superconductors [7, 8]. In the framework of the SABINA project a novel THz/IR beamline based on an APPLE-X undulator emission will be developed at the SPARC-Lab facility at LNF- INFN. Light will be propagated from the SPARC-Lab to a new user lab facility nearly 25 m far away from the SPARC laboratory. This beamline will cover a broad spectral region from 3 THz to 30 THz, showing ps- pulses and energy of hundreds of μJ with variable polarization from linear to circular. The corresponding electric fields up to 10 MV/cm, are able to induce non-linear phenomena in many quantum systems. The beamline, open to user experiments, will be equipped with a 5 T magnetic cryostat, and will be synchronized with a fs laser for THz/IR pump, VIS/UV probe experiment.
The Sabina Terahertz/Infrared Beamline at SPARC-Lab Facility / Macis, S., Bellaveglia, M., Cestelli Guidi, M., Chiadroni, E., Dipace, F., Doria, A., Ghigo, A., Giannessi, L., Giribono, A., Lupi, S., Petralia, A., Petrillo, V., Sabbatini, L., Vaccarezza, C.. - (2021). (IPAC21 Sao Paulo; Brazil ) [10.18429/jacow-ipac2021-tupab069].
The Sabina Terahertz/Infrared Beamline at SPARC-Lab Facility
Salvatore MacisPrimo
;Enrica Chiadroni;Felice Dipace;
2021
Abstract
Following the EU Terahertz (THz) Road Map [1], high-intensity, ps-long, THz)/Infrared (IR) radiation is going to become a fundamental spectroscopy tool for probing and control quantum materials ranging from graphene [2], and Topological Insulators, to strongly correlated oxides [3-6] and novel superconductors [7, 8]. In the framework of the SABINA project a novel THz/IR beamline based on an APPLE-X undulator emission will be developed at the SPARC-Lab facility at LNF- INFN. Light will be propagated from the SPARC-Lab to a new user lab facility nearly 25 m far away from the SPARC laboratory. This beamline will cover a broad spectral region from 3 THz to 30 THz, showing ps- pulses and energy of hundreds of μJ with variable polarization from linear to circular. The corresponding electric fields up to 10 MV/cm, are able to induce non-linear phenomena in many quantum systems. The beamline, open to user experiments, will be equipped with a 5 T magnetic cryostat, and will be synchronized with a fs laser for THz/IR pump, VIS/UV probe experiment.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
