期刊数据库
产品
- 飞秒激光器
- CARBIDE
- PHAROS
- FLINT
- 谐波发生器
- HG for PHAROS
- HG for CARBIDE
- HIRO
- SHBC
- 波长可调光源
- I-OPA
- ORPHEUS
- ORPHEUS-F
- ORPHEUS-MIR
- ORPHEUS-ONE
- ORPHEUS-TWINS
- ORPHEUS-N
- ORPHEUS-PS
- 用于钛蓝宝石激光器的OPA
- TOPAS-PRIME
- TOPAS-PRIME-HE
- TOPAS-TWINS
- TOPAS-SHBC-400
- TOPAS-PS-800
- OPCPA系统
- ORPHEUS-OPCPA
- OPCPA-HE
- 光谱系统
- HARPIA
- HARPIA-TA
- HARPIA-TF
- HARPIA-MM
- CarpetView
- 显微镜光源
- CRONUS-2P
- CRONUS-3P
- 自相关器
- GECO
- TIPA
应用
- Ultrafast spectroscopy
- Transient absorption spectroscopy
- Sum-frequency spectroscopy
- 2D electronic spectroscopy
- 2D infrared spectroscopy
- Fluorescence spectroscopy
- Photoemission spectroscopy
- Transient grating spectroscopy
- Flash photolysis
- Z-scan
- Advanced microscopy
- Ultrafast electron microscopy
- Transient absorption microscopy
- Nonlinear microscopy
- High-energy and attosecond science
- THz generation
- High harmonic generation
- X-ray generation
- Laser source development
- Nonlinear optics
- OPCPA
- Laser pumping and seeding
- Pulse characterization
- Repetition rate locking
- CEP stabilization
- Micro and nanofabrication
- Photopolymerization
- Color center formation
- Volume modification
- Laser–tissue interaction
- Industrial applications
- Stent cutting
- Fiber cleaving
- Stainless steel polishing
- Selective ablation
- Milling of complex 3D structures
- High-contrast marking
- Cutting
Promotion of Fast and Efficient Singlet Fission Process of PDI Dimers by Selenium Substitution
Y. Yang, W. Su, H. Wang, X. Bao, X. Liu et al.
The Journal of Physical Chemistry B • 2024
Proton diffusion on the surface of mixed lipid membranes highlights the role of membrane composition
A. R. Variyam, M. Rzycki, A. Yucknovsky, A. A. Stuchebrukhov, D. Drabik et al.
Biophysical Journal • 2024
Quantitative Laser Testing for Predicting Heavy-Ion SEE Response—Part 1: Metrics for Assessing Response Agreement
A. Ildefonso, J. M. Hales, A. Khachatrian, G. R. Allen, and D. McMorrow
IEEE Transactions on Nuclear Science • 2024
Quantitative Laser Testing for Predicting Heavy-Ion SEE Response—Part 2: Accurately Determining Laser-Equivalent LET
J. M. Hales, A. Ildefonso, A. Khachatrian, G. R. Allen, and D. McMorrow
IEEE Transactions on Nuclear Science • 2024
Quantum Cone—A Nano-Source of Light with Dispersive Spectrum Distributed along Height and in Time
A. Medvids, P. Ščajev, and K. Hara
Nanomaterials • 2024
Quantum Prism—Nano Source of Light with Dispersive Spectrum and Optical Upconversion
A. Medvids, P. Ščajev, S. Miasojedovas, and K. Hara
Nanomaterials • 2024
Real-time tracking of ground- and excited-state responses of photoactive molecules to a change of microenvironment, from femtoseconds to milliseconds
C. Li, A. Sampaoli, D. Bäuerle, M. B. Vera, G. Peygourdi et al.
American Chemical Society (ACS) • 2024
Reducing nonradiative recombination for highly efficient inverted perovskite solar cells via a synergistic bimolecular interface
S. Xiong, F. Tian, F. Wang, A. Cao, Z. Chen et al.
Nature Communications • 2024
Reducing wavelength jitter in white-light seeded femtosecond optical parametric chirped-pulse amplifiers
T. Hülsenbusch, L. Winkelmann, T. Eichner, T. Lang, G. Palmer et al.
Optics Express • 2024
Short‐Wave Infrared Colloidal QD Photodetector with Nanosecond Response Times Enabled by Ultrathin Absorber Layers
Y. Deng, C. Pang, E. Kheradmand, J. Leemans, J. Bai et al.
Advanced Materials • 2024