Add to ORKGFemtosecond-laser excitation induces recombinative desorption of molecular H-2 from atomic hydrogen on a ruthenium surface. The measured ultrafast timescale of this surface reaction reveals an excitation process mediated by hot substrate electrons. A coverage dependent isotope effect indicates a collective reaction mechanism whereby vibrationally excited H atoms modify the reactivity of coadsorbed species
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
A mechanistic understanding of the surface femtochemistry leading to the formation of hydrogen and t...
The mechanism of recombinative desorption of hydrogen from a Ru(0001) surface induced by femtosecond...
For a microscopic understanding of chemical reactions at surfaces, it is essential to obtain detaile...
For a microscopic understanding of chemical reactions at surfaces, it is essential to obtain detaile...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
The mechanism of recombinative desorption of hydrogen from a Ru(0001) surface induced by femtosecond...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
This thesis investigates the reaction mechanisms of femtosecond-laser induced associative desorption...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
A mechanistic understanding of the surface femtochemistry leading to the formation of hydrogen and t...
The mechanism of recombinative desorption of hydrogen from a Ru(0001) surface induced by femtosecond...
For a microscopic understanding of chemical reactions at surfaces, it is essential to obtain detaile...
For a microscopic understanding of chemical reactions at surfaces, it is essential to obtain detaile...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
Absorption of femtosecond near-infrared laser pulses in the surface near region of Ru(001) covered w...
The mechanism of recombinative desorption of hydrogen from a Ru(0001) surface induced by femtosecond...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
The goal of this work is to acquire detailed insight into the fundamental interaction mechanisms in ...
This thesis investigates the reaction mechanisms of femtosecond-laser induced associative desorption...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
Fundamental insights into the ultrafast dynamics of energy transfer processes at surfaces are of cen...
A mechanistic understanding of the surface femtochemistry leading to the formation of hydrogen and t...