Add to ORKGA simulation study of the coupled dynamics of amide I and amide II vibrations in an R-helix dissolved in water shows that two-dimensional (2D) infrared spectroscopy may be used to disentangle the energy transport along the helix through each of these modes from the energy relaxation between them. Time scales for both types of processes are obtained. Using polarization-dependent 2D spectroscopy is an important ingredient in the method we propose. The method may also be applied to other two-band systems, both in the infrared (collective vibrations) and the visible (excitons) parts of the spectrum. I
Polaritonic chemistry—controlling chemical reactions by strongly coupling light modes with resonant ...
In this dissertation, the application of advanced spectroscopy, such as two-dimensional infrared (2D...
Author Institution: University of Wisconsin-Madison, Madison, WI 53706Over the past few decades, the...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an a-helix dissolve...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an α-helix dissolve...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an a-helix dissolve...
Author Institution: Department of Chemistry, Massachusetts Institute of TechnologyI will describe th...
Two-dimensional infrared spectroscopy is capable of following the transfer of vibrational energy bet...
Two-dimensional infrared (2D-IR) spectroscopy is a powerful experimental method for probing the stru...
Population transfer between vibrational eigenstates is important for many phenomena in chemistry. In...
Theoretical descriptions of two-dimensional (2D) vibrational and electronic spectroscopy are present...
The research presented in this thesis advances the applicability of two dimensional infrared spectro...
A brief description of the signals in multidimensional infrared spectroscopy is given with emphasis ...
We introduce a sparse-matrix algorithm that allows for the simulation of two-dimensional infrared (2...
Polaritonic chemistry—controlling chemical reactions by strongly coupling light modes with resonant ...
In this dissertation, the application of advanced spectroscopy, such as two-dimensional infrared (2D...
Author Institution: University of Wisconsin-Madison, Madison, WI 53706Over the past few decades, the...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an a-helix dissolve...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an α-helix dissolve...
A simulation study of the coupled dynamics of amide I and amide II vibrations in an a-helix dissolve...
Author Institution: Department of Chemistry, Massachusetts Institute of TechnologyI will describe th...
Two-dimensional infrared spectroscopy is capable of following the transfer of vibrational energy bet...
Two-dimensional infrared (2D-IR) spectroscopy is a powerful experimental method for probing the stru...
Population transfer between vibrational eigenstates is important for many phenomena in chemistry. In...
Theoretical descriptions of two-dimensional (2D) vibrational and electronic spectroscopy are present...
The research presented in this thesis advances the applicability of two dimensional infrared spectro...
A brief description of the signals in multidimensional infrared spectroscopy is given with emphasis ...
We introduce a sparse-matrix algorithm that allows for the simulation of two-dimensional infrared (2...
Polaritonic chemistry—controlling chemical reactions by strongly coupling light modes with resonant ...
In this dissertation, the application of advanced spectroscopy, such as two-dimensional infrared (2D...
Author Institution: University of Wisconsin-Madison, Madison, WI 53706Over the past few decades, the...