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The width of the kinetic energy distributions is largest for Al2 and is gradually decreasing in the order Al2 > Al3 > Al4 and then remains practically constant for Al4, Al5, and Al6 (E≤20 eV).
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The width of the kinetic energy distributions is largest for Al2 and is gradually decreasing in the order Al2 > Al3 > Al4 and then remains practically constant for Al4, Al5, and Al6 (E≤20 eV).
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21
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67650169077
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The width of the kinetic energy distributions is largest for Ag2 and is gradually decreasing in the order Ag2 > Ag3 > Ag4 and then remains practically constant for Ag4, Ag5, and Ag6 (E≤8 eV).
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The width of the kinetic energy distributions is largest for Ag2 and is gradually decreasing in the order Ag2 > Ag3 > Ag4 and then remains practically constant for Ag4, Ag5, and Ag6 (E≤8 eV).
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22
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67650164889
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A clear distinction should be made between the (intrinsic) self-sputtering process as proposed here (in the sense that the cluster projectile sputters itself during collision) and the sputtering of a metal target by an incident atomic ion of the same element. (e.g., Ag target sputtered by incident Ag+ ions). The last event is also described in the literature as "self-sputtering."
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A clear distinction should be made between the (intrinsic) self-sputtering process as proposed here (in the sense that the cluster projectile sputters itself during collision) and the sputtering of a metal target by an incident atomic ion of the same element. (e.g., Ag target sputtered by incident Ag+ ions). The last event is also described in the literature as "self-sputtering."
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