于浩海
Professor
Gender:
Male
Status:
Employed
School/Department:
晶体材料研究院
Date of Employment:
2008-07-16
Paper Publications
-
2025-04-11
[1]
张宁.
Direct generation of 3.5 optical-cycle pulses from a rare-earth laser.
OPTICS LETTERS,
2025.
-
2025-02-26
[2]
丁恒.
100 W orbital angular momentum laser at 2 μm.
OPTICS LETTERS,
2025.
-
2025-05-01
[3]
张首焱.
Surpass 100 microjoule-level of Pr3+-based 320-nm intracavity ultraviolet pulsed laser.
Optics & Laser Technology,
112249,
2025.
-
2025-04-15
[4]
郑昌盛.
Amplification of high-purity scalar orbital angular momentum states in single-crystal fibers.
APL PHOTONICS,
2025.
-
2025-04-21
[5]
王树贤.
Unlocking the phase evolution of the hidden non-polar to ferroelectric transition in HfO2-based b....
Nature Communications,
3745,
2025.
-
2025-04-25
[6]
孟天祥.
Natural Crystal Structure for Generating Raman-Like Orbital Angular Momentum States.
Advanced Science,
2025.
-
2025-04-07
[7]
张中勉.
Deep-ultraviolet second harmonic generation down to 150 nm in a quartz crystal with chirped dual-....
Optics Express,
33,
15579,
2025.
-
2025-03-13
[8]
路大治.
La3ZrGa5O14: Band‐Inversion Strategy in Topology‐Protected Octahedron for Large Nonlinear Respo....
Angew Chem Int Ed,
64,
202503341,
2025.
-
2025-03-01
[9]
李倩文.
Optically-pumped mid-infrared Tm:LuScO3 crystal laser at 2.1 and 2.3?μm with high slope efficie....
Optics & Laser Technology,
186,
112732,
2025.
-
2025-01-27
[10]
王芳彦.
Phonon-Assisted Photoluminescence-Excited (PLE) Spectrum in Eu3+-Doped Single Crystals.
CRYSTAL GROWTH & DESIGN,
25,
838,
2025.
-
2025-02-20
[11]
周亚.
Quasi-continuous-wave diode-pumped Yb:YCOB monolithic laser with peak power beyond 200 Watt.
Chinese Optics Letters,
23,
1,
2025.
-
2024-03-17
[12]
.
Orbital-Morphology-Based Oxygen Reduction in a Correlated Oxide.
Advanced Functional Materials,
2024.
-
2024-12-17
[13]
王亚倩.
Bifunctional Design of Ferroelectric‐Order and Band‐Engineering in Cu:KTN Crystal for Extended ....
Advanced Science,
12,
2412877,
2024.
-
2024-12-17
[14]
李倩文.
Electron–phonon coupling analysis and phonon-assisted laser wavelength extension in mid-infrared....
Optics & Laser Technology,
183,
112337,
2024.
-
2024-12-09
[15]
李晴.
Regulation of the sintering trajectory of Ho,Pr:Y2O3 ceramics for 2.9 μm mid-infrared lasers by ....
Journal of Advanced Ceramics,
14,
9221006,
2024.
-
2024-12-08
[16]
韩金锋.
Electron-Lattice Synergistic Coordination for Boosting the Electro-Optic Response of the Crystal.
Advanced Science,
2411143,
2024.
-
2024-10-21
[17]
郝鸿.
Anisotropic Laser Performance in an Optically Isotropic Crystal by Phonon Engineering.
Advanced Photonics Research,
5,
2400149,
2024.
-
2024-10-01
[18]
顾洪旭.
Extending mid-infrared wavelength to 6.84 μm in oxide nonlinear optical crystal via birefringenc....
OPTICS LETTERS Journal,
49,
5643,
2024.
-
2024-10-01
[19]
杜金恒.
Monolithic continuous-wave yellow laser with the integration of multiphonon-electron coupling and....
Optics & Laser Technology,
111894,
2024.
-
2024-01-27
[20]
赵小玻.
Macro- and micro-structural manifestation and engineering of large-size polycrystalline ZnSe.
CRYSTENGCOMM,
2024.
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