38,746 research outputs found
Radical pair intersystem crossing: Quantum dynamics or incoherent kinetics?
Magnetic field effects on radical pair reactions arise due to the interplay
of coherent electron spin dynamics and spin relaxation effects, a rigorous
treatment of which requires the solution of the Liouville-von Neumann equation.
However, it is often found that simple incoherent kinetic models of the radical
pair singlet-triplet intersystem crossing provide an acceptable description of
experimental measurements. In this paper we outline the theoretical basis for
this incoherent kinetic description, elucidating its connection to exact
quantum mechanics. We show in particular how the finite lifetime of the radical
pair spin states, as well as any additional spin-state dephasing, leads to
incoherent intersystem crossing. We arrive at simple expressions for the
radical pair spin state interconversion rates to which the functional form
proposed recently by Steiner et al. [J. Phys. Chem. C 122, 11701 (2018)] can be
regarded as an approximation. We also test the kinetic master equation against
exact quantum dynamical simulations for a model radical pair and for a series
of molecular
wires
Spin-selective electron transfer reactions of radical pairs: beyond the Haberkorn master equation
Radical pair recombination reactions are normally described using a quantum
mechanical master equation for the electronic and nuclear spin density
operator. The electron spin state selective (singlet and triplet) recombination
processes are described with a Haberkorn reaction term in this master equation.
Here we consider a general spin state selective electron transfer reaction of a
radical pair and use Nakajima-Zwanzig theory to derive the master equation for
the spin density operator, thereby elucidating the relationship between
non-adiabatic reaction rate theory and the Haberkorn reaction term. A second
order perturbation theory treatment of the diabatic coupling naturally results
in the Haberkorn master equation with an additional reactive scalar electron
spin coupling term. This term has been neglected in previous spin chemistry
calculations, but we show that it will often be quite significant. We also show
that beyond second order in perturbation theory, i.e., beyond the Fermi golden
rule limit, an additional reactive singlet-triplet dephasing term appears in
the master equation. A closed form expression for the reactive scalar electron
spin coupling in terms of the Marcus theory parameters that determine the
singlet and triplet recombination rates is presented. By performing simulations
of radical pair reactions with the exact Hierarchical Equations of Motion
(HEOM) method, we demonstrate that our master equations provide a very accurate
description of radical pairs undergoing spin-selective non-adiabatic electron
transfer reactions. The existence of a reactive electron spin coupling may well
have implications for biologically relevant radical pair reactions such as
those which have been suggested to play a role in avian magnetoreception
CFRP truss for the CCAT 25 m diameter submillimeter-wave telescope
CCAT will be a 25 m diameter submillimeter-wave telescope that will operate inside a dome located on Cerro Chajnantor in the Atacama Desert. The telescope must have high aperture efficiency at a wavelength of 350 microns and good performance out to a wavelength of 200 microns. A conceptual design for a carbon fiber reinforced plastic (CFRP) truss and primary reflector support truss has been developed. This design yields a telescope with a net �½ wave front error of <10 microns using a lookup table to adjust the segment actuators to compensate for gravitational deflections. Minor corrections may be required to compensate for the expected 20 C temperature excursions. These can be handled using a coarse lookup table
Diffusion coefficients for multi-step persistent random walks on lattices
We calculate the diffusion coefficients of persistent random walks on
lattices, where the direction of a walker at a given step depends on the memory
of a certain number of previous steps. In particular, we describe a simple
method which enables us to obtain explicit expressions for the diffusion
coefficients of walks with two-step memory on different classes of one-, two-
and higher-dimensional lattices.Comment: 27 pages, 2 figure
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