1.
High Energy and Broad Bandwidth Ti: Sapphire Chirped Pulse Amplifi..
[1021]
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2.
339 J high-energy Ti:sapphire chirped-pulse amplifier for 10 PW la..
[858]
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3.
Parasitic lasing in large aperture Ti: sapphire chirped pulse ampl..
[803]
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4.
Improvement of the focusing ability by double deformable mirrors f..
[801]
|
5.
200 J high efficiency Ti:sapphire chirped pulse amplifier pumped b..
[792]
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6.
High energy and broad bandwidth Ti:sapphire chirped pulse amplifie..
[787]
|
7.
Optimization for high-energy and high-efficiency broadband optical..
[774]
|
8.
Four-Outputs Nd:glass Pump Source for Large Aperture Ti:Sapphire A..
[774]
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9.
Coherent beam combination of multiple beams based on near-field an..
[761]
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10.
High-order dispersion control of 10-petawatt Ti:sapphire laser fac..
[755]
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11.
A full-path phasing technique based on the far-field interference ..
[751]
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12.
Trends in ultrashort and ultrahigh power laser pulses based on opt..
[749]
|
13.
Temporal dual-pulse pumped Ti:Sapphire Amplilier
[745]
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14.
High-precision active synchronization control of high-power, tiled..
[705]
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15.
Two-beam coherent combining based on Ti:sapphire chirped-pulse amp..
[681]
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16.
Phasing methods of tiled-aperture coherent beam combining for high..
[677]
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17.
Coherent beam combination far-field measuring method based on ampl..
[620]
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18.
Numerical investigations of signal-spectrum shaping based on confo..
[499]
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19.
Wavefront evolution of the signal beam in Ti:sapphire chirped puls..
[492]
|
20.
Optimizing the performance of non-collinear optical parametric chi..
[486]
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21.
Output features of broadband nonlinear OPCPA at different phase ma..
[481]
|
22.
Deep learning assisted far-field multi-beam pointing measurement
[477]
|
23.
Megahertz-level, high-power picosecond Nd:LuVO4 regenerative ampli..
[463]
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24.
High power, high repetition rate, few picosecond Nd:LuVO4 oscillat..
[463]
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25.
Numerical investigations of non-collinear optical parametric chirp..
[461]
|
26.
Output features of optical parametric chirped pulse amplification ..
[456]
|
27.
Numerical investigation of output beam quality in efficient broadb..
[445]
|
28.
34.7 mu J, < 10 ps, Megahertz-level laser output based on a cavity..
[439]
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29.
High power, diffraction limited picosecond oscillator based on Nd:..
[434]
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30.
全立体空间相位匹配提升宽带OPCPA性能的方法
[428]
|
31.
High-power operation of double-pass pumped Nd:YVO4 thin disk laser
[427]
|
32.
Laser performance of a broadband wavelength tunable Yb:germanophos..
[410]
|
33.
High power TEM00 picosecond output based on a Nd:GdVO4 discrete pa..
[408]
|
34.
Diode-pumped Yb:SSO chirped pulse amplifier with 1 ps pulse durati..
[403]
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35.
Broadband optical parametric chirped pulse amplification in K3B6O1..
[389]
|
36.
Laser performance and thermal lens of diode-pumped Nd, Y-codoped:S..
[378]
|
37.
Temporal compensation method of pulse distortion in saturated lase..
[372]
|
38.
Cavity-dumped mode-locked picosecond Nd:GdVO4oscillator
[365]
|
39.
Wavefront Evolution and Analysis of 10-Petawatt Laser System
[362]
|
40.
Adjustable-free and movable Nd:YVO4thin disk laser based on the te..
[359]
|
41.
High-efficiency amplification of non-principal plane of yttrium ca..
[338]
|
42.
Far-field phasing method based on deep learning for tiled-aperture..
[283]
|
43.
Improvement of four-beam coherent beam combining system for high-p..
[273]
|
44.
Temporal dual-pulse pumped Ti: Sapphire amplilier
[264]
|
45.
Nd:GdVO4Innoslab amplifier with discrete path for parasitic lasing..
[129]
|