(a) the cumulative POP as a function of emission angle is graphically represented. Black triangles mark the experimental data, red circles denote the theoretical predictions, and blue squares illustrate the 3ωt curve employed for linear calibration. (b) (IMAGE)
Caption
Figure 3: (a) the cumulative POP as a function of emission angle is graphically represented. Black triangles mark the experimental data, red circles denote the theoretical predictions, and blue squares illustrate the 3ωt curve employed for linear calibration. (b) The time-delay mapping was retrieved from the experimental POP spectra. The gray vertical dashed line represents the peak emission angle 253◦. (c) The cross-sectional view of the time-delay, as it relates to the electron emission angle, is presented for both the measured and calculated results (co-rotating with the same parameters), depicted by blue triangles and circles (purple square). Additionally, the energy-integrated electron yield is illustrated, which helps to determine the peak emission angle for both measured and calculated outcomes, represented by red triangles and circles respectively. (d) Energy resolved yield (red circles) and time-delay for different energy along the emission angle of 253◦. Experimental and calculated time-delay for each energy are represented using purple squares and blue circles respectively.
Credit
Ultrafast Science
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