Timur Grinev, Moshe Shapiro, Paul Brumer
Published 2015-05-11Version 1
Coherent control of internal conversion (IC) between the first ($S_1$) and second ($S_2$) singlet excited electronic states in pyrazine, where the $S_2$ state is populated from the ground singlet electronic state $S_0$ by weak field excitation, is examined. Control is implemented by shaping the laser which excites $S_2$. Excitation and IC are considered simultaneously, using the recently introduced resonance-based control approach. Highly successful control is achieved by optimizing both the amplitude and phase profiles of the laser spectrum. The dependence of control on the properties of resonances in $S_2$ is demonstrated.
Comments: 24 pages, 7 final figures (built from 9 .eps figure files, see the processed PDF file)
Coherent Quantum Control to Arbitrary Accuracy using the Uhrig Sequence of Ideal or Finite-Width $π$-Pulses
Randomized Dynamical Decoupling Techniques for Coherent Quantum Control
A transverse Hamiltonian variational technique for open quantum stochastic systems and its application to coherent quantum control
![QR code for arXiv:1505.02470 [quant-ph]](http://oss.arxitics.com/images/favicon.svg)