High Power Laser Science and Engineering, Volume. 7, Issue 2, 02000e26(2019)
Optical diagnostics for density measurement in high-quality laser-plasma electron accelerators
Fig. 1. Upper panel: interferogram of a pulsed gas jet in vacuum with a rectangular orifice acquired by means of a Nomarski interferometer; lower panel: corresponding average density map obtained with a phase-retrieval algorithm[22].
Fig. 2. Schematic representation of the most common interferometers used for density measurements in laser-plasma accelerators; M, mirror; BS, beam splitter; SHG, second-harmonic generation unit. Optical elements used for imaging, such as lenses, are omitted for clarity.
Fig. 3. Real-time measurements of the Ar gas number density inside a pulsed gas flow cell by an SHI at 1064 nm: black curve, pulse length 100 ms; red curve, pulse length 500 ms. Backing Ar pressure 600 mbar.
Fig. 4. Interferometric capability for neutral hydrogen density measurements. For each methodology considered, the wavelength used and the measured phase are shown. For SHI, the fundamental wavelength used is reported, while the phase shift refers to the actually detected second-harmonic wavelength, i.e., 400 nm. The solid lines correspond to the smallest measurable phase, indicated in the legend, while the dashed lines correspond to measurements within half-fringe.
Fig. 5. Interferometric capability for free-electron density measurements. For each methodology considered the wavelength used and the measured phase are shown. For SHI, the fundamental wavelength used is reported, while the phase shift refers to the actually detected second-harmonic wavelength, i.e., 400 nm. The solid lines correspond to the smallest measurable phase, indicated in the legend, while the dashed lines correspond to measurements within half-fringe, except for group delay measurements with the SHI.
Fig. 6. Schematic of the Stark broadening measurement setup, showing both longitudinal and transverse configurations.
Fig. 7. Schematic of the Raman scattering measurement setup, showing both backward and forward configurations. M, mirror, Mh, mirror with a hole in the center to let the electron beam through.
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Fernando Brandi, Leonida Antonio Gizzi. Optical diagnostics for density measurement in high-quality laser-plasma electron accelerators[J]. High Power Laser Science and Engineering, 2019, 7(2): 02000e26
Special Issue: HIGH ENERGY DENSITY PHYSICS AND HIGH POWER LASERS
Received: Aug. 7, 2018
Accepted: Mar. 21, 2019
Posted: Mar. 22, 2019
Published Online: Apr. 30, 2019
The Author Email: Fernando Brandi (fernando.brandi@ino.cnr.it)