Higher-order multidimensional and pump–probe spectroscopies
Transient absorption and coherent two-dimensional spectroscopy are widely established
methods for the investigation of ultrafast dynamics in quantum systems. Conventionally, they …
methods for the investigation of ultrafast dynamics in quantum systems. Conventionally, they …
Multidimensional coherent spectroscopy of semiconductors
Optical multidimensional coherent spectroscopy (MDCS) is a nonlinear spectroscopy
technique where a material is excited by a series of laser pulses to produce a spectrum as a …
technique where a material is excited by a series of laser pulses to produce a spectrum as a …
[HTML][HTML] Two-dimensional fluorescence excitation spectroscopy: A novel technique for monitoring excited-state photophysics of molecular species with high time and …
We propose a novel UV/Vis femtosecond spectroscopic technique, two-dimensional
fluorescence-excitation (2D-FLEX) spectroscopy, which combines spectral resolution during …
fluorescence-excitation (2D-FLEX) spectroscopy, which combines spectral resolution during …
Multimode vibrational dynamics and orientational effects in fluorescence-encoded infrared spectroscopy. II. Analysis of early-time signals
Develo** fluorescence-encoded infrared (FEIR) vibrational spectroscopy for single-
molecule applications requires a detailed understanding of how the molecular response and …
molecule applications requires a detailed understanding of how the molecular response and …
Fluorescence-detected two-quantum and one-quantum–two-quantum 2D electronic spectroscopy
S Mueller, S Draeger, X Ma, M Hensen… - The Journal of …, 2018 - ACS Publications
We demonstrate two-quantum (2Q) coherent two-dimensional (2D) electronic spectroscopy
using a shot-to-shot-modulated pulse shaper and fluorescence detection. Broadband …
using a shot-to-shot-modulated pulse shaper and fluorescence detection. Broadband …
Toward engineering intrinsic line widths and line broadening in perovskite nanoplatelets
Perovskite nanoplatelets possess extremely narrow absorption and emission line widths,
which are crucial characteristics for many optical applications. However, their underlying …
which are crucial characteristics for many optical applications. However, their underlying …
Automatic Feynman diagram generation for nonlinear optical spectroscopies and application to fifth-order spectroscopy with pulse overlaps
PA Rose, JJ Krich - The Journal of chemical physics, 2021 - pubs.aip.org
Perturbative nonlinear optical spectroscopies are powerful methods to understand the
dynamics of excitonic and other condensed phase systems. Feynman diagrams have long …
dynamics of excitonic and other condensed phase systems. Feynman diagrams have long …
Finite pulse effects in single and double quantum spectroscopies
When modeling experimental 2D spectra, the effects of finite pulse durations are usually
neglected to optimize computational costs. We present an analytic treatment of finite pulse …
neglected to optimize computational costs. We present an analytic treatment of finite pulse …
Characterization of the ultrafast spectral diffusion and vibronic coherence of TIPS-pentacene using 2D electronic spectroscopy
TIPS-pentacene is a small-molecule organic semiconductor that is widely used in
optoelectronic devices. It has been studied intensely owing to its ability to undergo singlet …
optoelectronic devices. It has been studied intensely owing to its ability to undergo singlet …
Simplified expressions that incorporate finite pulse effects into coherent two-dimensional optical spectra
We derive general expressions that incorporate finite pulse envelope effects into a coherent
two-dimensional optical spectroscopy (2DOS) technique. These expressions are simpler …
two-dimensional optical spectroscopy (2DOS) technique. These expressions are simpler …