相关期刊
Applications
- Ultrafast spectroscopy
- Transient absorption spectroscopy
- Sum-frequency spectroscopy
- Stimulated Raman scattering
- 2D electronic spectroscopy
- 2D infrared spectroscopy
- Fluorescence spectroscopy
- Photoemission spectroscopy
- Transient grating spectroscopy
- Flash photolysis
- Z-scan
- Advanced microscopy
- Transient absorption microscopy
- Nonlinear microscopy
- CARS and SRS microscopy
- Ultrafast electron microscopy
- High-energy and attosecond science
- High harmonic generation
- THz 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
- Surface nanostructuring
- Color center formation
- Volume modification
- Laser–tissue interaction
- Industrial applications
- Fiber cleaving
- Stent cutting
- Precision parts cutting
- High-contrast marking
- Milling of complex 3D structures
- Selective ablation
- Stainless steel polishing
- Polymer polishing
- Periodic surface structuring
Products
- Femtosecond Lasers
- PHAROS
- CARBIDE
- FLINT
- Harmonic Generators
- HG for PHAROS
- HG for CARBIDE
- HIRO
- SHBC
- Tunable Wavelength Sources
- ORPHEUS
- ORPHEUS-F
- ORPHEUS-N
- ORPHEUS-MIR
- ORPHEUS-ONE
- ORPHEUS-TWINS
- ORPHEUS-PS
- I-OPA
- OPA for Ti:Sapphire Lasers
- TOPAS-PRIME
- TOPAS-PRIME-HE
- TOPAS-TWINS
- TOPAS-SHBC-400
- TOPAS-PS-800
- OPCPA Systems
- ORPHEUS-OPCPA
- OPCPA-HE
- Spectroscopy Systems
- HARPIA
- HARPIA-TA
- HARPIA-TF
- Microscopy Systems
- CRONUS-2P
- CRONUS-3P
- Autocorrelators
- GECO
- TIPA
Low energy excited state vibrations revealed in conjugated copolymer PCDTBT
S. Irgen‑Gioro, P. Roy, S. Padgaonkar, and E. Harel, The Journal of Chemical Physics 4 (152), 044201 (2020).
Both electronic and vibrational coherences are involved in primary electron transfer in bacterial reaction center
F. Ma, E. Romero, M. R. Jones, V. I. Novoderezhkin, and R. van Grondelle, Nature Communications 1 (10) (2019).
Potential pitfalls of the early-time dynamics in two-dimensional electronic spectroscopy
D. Paleček, P. Edlund, E. Gustavsson, S. Westenhoff, and D. Zigmantas, The Journal of Chemical Physics 2 (151), 024201 (2019).
Exciton–Phonon Spectroscopy of Quantum Dots Below the Single-Particle Homogeneous Line Width
A. P. Spencer, W. O. Hutson, S. Irgen‑Gioro, and E. Harel, The Journal of Physical Chemistry Letters 7 (9), 1503-1508 (2018).
Identification and characterization of diverse coherences in the Fenna–Matthews–Olson complex
E. Thyrhaug, R. Tempelaar, M. J. P. Alcocer, K. Žídek, D. Bína, J. Knoester, T. L. C. Jansen, and D. Zigmantas, Nature Chemistry 7 (10), 780-786 (2018).
Discrimination of Diverse Coherences Allows Identification of Electronic Transitions of a Molecular Nanoring
V. Butkus, J. Alster, E. Bašinskaitė, R. Augulis, P. Neuhaus, L. Valkunas, H. L. Anderson, D. Abramavicius, and D. Zigmantas, The Journal of Physical Chemistry Letters 10 (8), 2344-2349 (2017).
Quantum coherence selective 2D Raman–2D electronic spectroscopy
A. P. Spencer, W. O. Hutson, and E. Harel, Nature Communications 1 (8) (2017).
Dark States in the Light-Harvesting complex 2 Revealed by Two-dimensional Electronic Spectroscopy
M. Ferretti, R. Hendrikx, E. Romero, J. Southall, R. J. Cogdell, V. I. Novoderezhkin, G. D. Scholes, and R. van Grondelle, Scientific Reports 1 (6) (2016).
Mapping multidimensional electronic structure and ultrafast dynamics with single-element detection and compressive sensing
A. P. Spencer, B. Spokoyny, S. Ray, F. Sarvari, and E. Harel, Nature Communications 1 (7) (2016).
Real-time observation of multiexcitonic states in ultrafast singlet fission using coherent 2D electronic spectroscopy
A. A. Bakulin, S. E. Morgan, T. B. Kehoe, M. W. B. Wilson, A. W. Chin, D. Zigmantas, D. Egorova, and A. Rao, Nature Chemistry 1 (8), 16-23 (2015).