2.1 Ultrafast solid-state lasers - ETH - the Keller Group
2.1 Ultrafast solid-state lasers - ETH - the Keller Group
2.1 Ultrafast solid-state lasers - ETH - the Keller Group
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Ref. p. 134] <strong>2.1</strong> <strong>Ultrafast</strong> <strong>solid</strong>-<strong>state</strong> <strong>lasers</strong> 57<br />
Table <strong>2.1</strong>.2 continued.<br />
Laser material ML technique λ0 τp Pav,out frep Remarks Ref.<br />
Nd:fluorophosphate soliton-SESAM 1.065 μm 60 fs 84 mW 114 MHz [97Aus]<br />
Nd:silicate soliton-SESAM 1.064 μm 130 fs 80 mW 180 MHz [95Kop1]<br />
KLM ≈ 1.07 μm 64 fs 30 mW spectral shaping required [01Lu]<br />
Nd: fluorophosphate<br />
and Nd:silicate<br />
soliton-SESAM 1.064 μm 38 fs 40 mW dual gain medium both at<br />
Brewster’s angle<br />
[02Han]<br />
Yb:YAG<br />
Yb 3+ :Y3Al5O12 soliton-SESAM 1.03 μm 540 fs 100 mW 81 MHz first passively mode-locked<br />
Yb:YAG laser<br />
[95Hoe]<br />
340 fs 170 mW [99Hoe2]<br />
2.2 ps 8.1 W 63 MHz [99Aus]<br />
730 fs 16.2 W 35 MHz first passively mode-locked<br />
thin-disk laser, 0.47 μJ pulse<br />
energy<br />
3.3–89 ps<br />
0.83–1.57 ps<br />
[00Aus]<br />
12 W 28 MHz tunable pulse duration [01Bru]<br />
810 fs 60 W 34.3 MHz thin-disk laser, 1.75 μJ pulse<br />
energy, 1.9 MW peak power<br />
705 fs 80 W 57 MHz thin-disk laser, 1.4 μJ pulse<br />
energy<br />
796 fs 63 W 12.3 MHz thin-disk laser, 5.1 μJ pulse<br />
energy, 5.6 MW peak power<br />
791 fs 45 W 4 MHz thin-disk laser with multipass<br />
cavity [64Her], 11 μJ<br />
pulse energy<br />
≈ 1.05 μm 136 fs 3.1 mW shorter pulses only with extra<br />
spectral filtering<br />
[03Inn]<br />
[04Bru]<br />
[06Mar]<br />
[07Mar]<br />
[05Uem]<br />
CCM-APM 1.03 μm 1.9 ps (4.7 ps) 2.5 W (2.7 W) 115 MHz [03Maj]<br />
(continued)<br />
Landolt-Börnstein<br />
New Series VIII/1B1