Downloads provided by UsageCountsObservation of laser-assisted electron scattering in superfluid helium
Treiber, Leonhard; Thaler, Bernhard; Heim, Pascal; Stadlhofer, Michael; Kanya, Reika; Kitzler-Zeiler, Markus; Koch, Markus;
Observation of laser-assisted electron scattering in superfluid helium
Measured and simulated electron spectra for the study entitled "Observation of laser-assisted electron scattering in superfluid helium". Figure 1a (fig1_a.csv) column 1: simulated electron energy in eV column 2: log_10(simulated electron signal) column 3: measured electron energy in eV column 4: log_10(measured LAES electron signal) column 5: log_10(measured ATI electron signal) Figure 1b (fig1_b.csv) column 1: measured electron energy in eV column 2: log_10(measured LAES electron signal) column 3: log_10(measured ATI electron signal) Figure 1c (fig1_c.csv) column 1: measured electron energy in eV column 2: log_10(measured LAES electron signal) column 3: log_10(measured ATI electron signal) Figure 1d (fig1_d.csv) column 1: energy for total elastic electron scattering cross section of electrons and He in eV column 2: total elastic electron scattering cross section of electrons and He column 3: measured electron energy in eV for column 4 column 4: log_10(measured LAES electron signal obtained with In in He) column 5: measured electron energy in eV for column 6 column 6: log_10(measured ATI electron signal obtained with In) column 7: measured electron energy in eV for column 8 column 8: log_10(measured LAES electron signal obtained with Xe in He) column 9: measured electron energy in eV for column 10 column 10: log_10(measured ATI electron signal obtained with Xe) column 11: measured electron energy in eV for column 12 column 12: log_10(measured LAES electron signal obtained with AC in He) column 13: measured electron energy in eV for column 14 column 14: log_10(measured ATI electron signal obtained with AC) Figure 2a&b (fig2_ab.csv) column 1: electron energy in eV column 2: log_10(measured ATI electron signal) column 3: log_10(measured LAES electron signal for 32 Angstrom droplet radius) column 4: log_10(measured LAES electron signal for 40 Angstrom droplet radius) column 5: log_10(measured LAES electron signal for 43 Angstrom droplet radius) column 6: log_10(measured LAES electron signal for 50 Angstrom droplet radius) column 7: log_10(measured LAES electron signal for 76 Angstrom droplet radius) column 8: log_10(measured LAES electron signal for 340 Angstrom droplet radius) Figure 2c (fig2_c.csv) column 1: electron energy in eV column 2: log_10(simulated LAES electron signal for 32 Angstrom droplet radius) column 3: log_10(simulated LAES electron signal for 40 Angstrom droplet radius) column 4: log_10(simulated LAES electron signal for 43 Angstrom droplet radius) column 5: log_10(simulated LAES electron signal for 50 Angstrom droplet radius) column 6: log_10(simulated LAES electron signal for 76 Angstrom droplet radius) column 7: log_10(simulated LAES electron signal for 340 Angstrom droplet radius) Figure 3a (fig3_a.csv) column 1: time in femtoseconds for column 2 column 2: laser pulse envelope column 3: time in femtoseconds for columns 4-9 column 4: ratio of ejected electrons for 340 Angstrom droplet radius column 5: ratio of ejected electrons for 76 Angstrom droplet radius column 6: ratio of ejected electrons for 50 Angstrom droplet radius column 7: ratio of ejected electrons for 43 Angstrom droplet radius column 8: ratio of ejected electrons for 40 Angstrom droplet radius column 9: ratio of ejected electrons for 32 Angstrom droplet radius Figure 3b (fig3_b.csv) column 1: number of events column 2: probability density for 340 Angstrom droplet radius column 3: probability density for 76 Angstrom droplet radius column 4: probability density for 50 Angstrom droplet radius column 5: probability density for 43 Angstrom droplet radius column 6: probability density for 40 Angstrom droplet radius column 7: probability density for 32 Angstrom droplet radius Figure 3c&d (fig3_cd.csv) column 1: number of events for 340 Angstrom droplet radius column 2: probability density for 340 Angstrom droplet radius column 3: number of events for 76 Angstrom droplet radius column 4: probability density for 76 Angstrom droplet radius column 5: number of events for 50 Angstrom droplet radius column 6: probability density for 50 Angstrom droplet radius column 7: number of events for 43 Angstrom droplet radius column 8: probability density for 43 Angstrom droplet radius column 9: number of events for 40 Angstrom droplet radius column 10: probability density for 40 Angstrom droplet radius column 11: number of events for 32 Angstrom droplet radius column 12: probability density for 32 Angstrom droplet radius
- Graz University of Technology Austria
- TU Wien Austria
- Tokyo Metropolitan University Japan
selected citations These citations are derived from selected sources.This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).0 popularity This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.Average influence This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).Average impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.Average views 14 downloads 13 - 14views13downloads
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These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
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This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
Influence provided by BIP!impulseImpulse provided by BIP!
This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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