We report on the status of the first Italian Infrared Synchrotron Radiation Beamline SINBAD (Synchrotron INfraredBeamline At DANE), that has been designed to work at wavelengths greater than 10 jsm. SINBAD is being installedon DANE, the new collider of the Laboratori Nazionali di Frascati designed to work at 0.51 GeV with a beamcurrent of 2 to 5 A. The infrared radiation extracted from a bending magnet under an angle of 50x50 mrad will betwo orders of magnitude more brilliant than that of a black body at 2000 K at a wavelength of 100 pm. The beamlinelayout, which consists of two plane mirrors, two toroidal mirrors and one aspherical mirror, has been designed by raytracing simulation. In this layout one ellipsoid focuses the radiation on a wedged CVD diamond-film window, thebeam is then re-focused again on the entrance of an interferometer. With a calculated transmittance of the opticsbetween 60% and 80% at 50 pm, this beamline will allow experiments which require a very high brilliance in the farinfrared.
SINBAD: The new powerful infrared source from the DA FNE storage ring / Marcelli, A; Burattini, E; Mencuccini, C; Nucara, Alessandro; Calvani, Paolo; Lupi, Stefano; Delrio, Ms. - STAMPA. - (1997), pp. 21-32. (Intervento presentato al convegno SPIE Meeting on Accelerator-Based Infrared Sources and Applications tenutosi a San Diego; USA nel 16 October 1997) [10.1117/12.279381].
SINBAD: The new powerful infrared source from the DA FNE storage ring
NUCARA, Alessandro;CALVANI, Paolo;LUPI, Stefano;
1997
Abstract
We report on the status of the first Italian Infrared Synchrotron Radiation Beamline SINBAD (Synchrotron INfraredBeamline At DANE), that has been designed to work at wavelengths greater than 10 jsm. SINBAD is being installedon DANE, the new collider of the Laboratori Nazionali di Frascati designed to work at 0.51 GeV with a beamcurrent of 2 to 5 A. The infrared radiation extracted from a bending magnet under an angle of 50x50 mrad will betwo orders of magnitude more brilliant than that of a black body at 2000 K at a wavelength of 100 pm. The beamlinelayout, which consists of two plane mirrors, two toroidal mirrors and one aspherical mirror, has been designed by raytracing simulation. In this layout one ellipsoid focuses the radiation on a wedged CVD diamond-film window, thebeam is then re-focused again on the entrance of an interferometer. With a calculated transmittance of the opticsbetween 60% and 80% at 50 pm, this beamline will allow experiments which require a very high brilliance in the farinfrared.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
