The possibility of phase-contrast imaging of nanostructures has been analyzed with the use of a femtosecond-laser plasma as a spatially coherent soft x-ray source and a LiF crystal as an x-ray detector having both the submicron spatial resolution in a wide field of view and a high contrast. It is demonstrated that the spatial coherence length of radiation in the wavelength range 1-13 nm at a distance of 30 cm from the femtosecond-laser plasma source is similar or equal to 1.5 mu m. The achieved spatial coherence of the source is sufficient to obtain high-quality phase-contrast x-ray images of foils with various chemical compositions and a thickness of similar or equal to 100 nm.
Phase-contrast imaging of nanostructures by soft x rays from a femtosecond-laser plasma
Calegari F;Vozzi C;Nisoli M;Sansone G;Valentini G;De Silvestri S;Stagira S
2008
Abstract
The possibility of phase-contrast imaging of nanostructures has been analyzed with the use of a femtosecond-laser plasma as a spatially coherent soft x-ray source and a LiF crystal as an x-ray detector having both the submicron spatial resolution in a wide field of view and a high contrast. It is demonstrated that the spatial coherence length of radiation in the wavelength range 1-13 nm at a distance of 30 cm from the femtosecond-laser plasma source is similar or equal to 1.5 mu m. The achieved spatial coherence of the source is sufficient to obtain high-quality phase-contrast x-ray images of foils with various chemical compositions and a thickness of similar or equal to 100 nm.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.