Thermally activated barrier crossing in the presence of an increasing load can reveal kinetic rate constants and energy barrier parameters when repeated over a range of loading rates. Here we derive a model of the mean escape force for all relevant loading rates--the complete force spectrum. Two well-known approximations emerge as limiting cases; one of which confirms predictions that single-barrier spectra should converge to a phenomenological description in the slow loading limit
We study the mean first-passage time τMFP for the barrier crossing of a single massive particle with...
Getfert S, Reimann P. Thermally activated escape far from equilibrium: A unified path-integral appro...
We present a unified framework for extracting kinetic information from single-molecule pulling exper...
Thermally activated barrier crossing in the presence of an increasing load can reveal kinetic rate c...
The thermal activation process by which a system passes from one local energy minimum to another is ...
Getfert S, Evstigneev M, Reimann P. Single-molecule force spectroscopy: Practical limitations beyond...
AbstractWe revisit some aspects of the interpretation of dynamic force spectroscopy experiments. The...
Theories that are used to extract energy-landscape information from single-molecule pulling experime...
Getfert S. Escape processes far from thermal equilibrium : path integrals and force spectroscopy. Bi...
I develop an analytically tractable model of dynamic force spectroscopy by considering the forced es...
Simulations with adaptive time-dependent bias enable an efficient exploration of the conformational ...
The biopolymer unfolding process can be conceptualized as the thermally activated crossing of a barr...
When a chemical reaction is driven by an external field, the transition state that the system must p...
Evstigneev M, Reimann P. Force dependence of energy barriers in atomic friction and single-molecule ...
© 2016 Author(s).The recrossing correction to the transition state theory estimate of a thermal rate...
We study the mean first-passage time τMFP for the barrier crossing of a single massive particle with...
Getfert S, Reimann P. Thermally activated escape far from equilibrium: A unified path-integral appro...
We present a unified framework for extracting kinetic information from single-molecule pulling exper...
Thermally activated barrier crossing in the presence of an increasing load can reveal kinetic rate c...
The thermal activation process by which a system passes from one local energy minimum to another is ...
Getfert S, Evstigneev M, Reimann P. Single-molecule force spectroscopy: Practical limitations beyond...
AbstractWe revisit some aspects of the interpretation of dynamic force spectroscopy experiments. The...
Theories that are used to extract energy-landscape information from single-molecule pulling experime...
Getfert S. Escape processes far from thermal equilibrium : path integrals and force spectroscopy. Bi...
I develop an analytically tractable model of dynamic force spectroscopy by considering the forced es...
Simulations with adaptive time-dependent bias enable an efficient exploration of the conformational ...
The biopolymer unfolding process can be conceptualized as the thermally activated crossing of a barr...
When a chemical reaction is driven by an external field, the transition state that the system must p...
Evstigneev M, Reimann P. Force dependence of energy barriers in atomic friction and single-molecule ...
© 2016 Author(s).The recrossing correction to the transition state theory estimate of a thermal rate...
We study the mean first-passage time τMFP for the barrier crossing of a single massive particle with...
Getfert S, Reimann P. Thermally activated escape far from equilibrium: A unified path-integral appro...
We present a unified framework for extracting kinetic information from single-molecule pulling exper...