Localization of the maximum transfers in the (δλ, <em>I<sub>m</sub></em>) plane for the four cases involving the couple <em>v</em> = 12, 13 for a pulse duration <em>T</em><sub>max</sub> = 30 fs
A Jaouadi
M Desouter-Lecomte
R Lefebvre
O Atabek
10.6084/m9.figshare.1012230.v1
https://iop.figshare.com/articles/_Localization_of_the_maximum_transfers_in_the__em_I_sub_m_sub_em_plane_for_the_four_cases_involving_/1012230
<p><strong>Figure 7.</strong> Localization of the maximum transfers in the (δλ, <em>I<sub>m</sub></em>) plane for the four cases involving the couple <em>v</em> = 12, 13 for a pulse duration <em>T</em><sub>max</sub> = 30 fs. The rotation sense of the loop is indicated for each case. The wavelength taken from Floquet theory is λ<sub><em>m</em></sub> = 579.5 nm. The red square indicates the optimal compromise adopted for δλ = 6 nm and I_m= 0.55\times 10^{13} \rm \ \rm \ W\,cm^{-2}.</p> <p><strong>Abstract</strong></p> <p>Laser control schemes for selective population inversion between molecular vibrational states have recently been proposed in the context of molecular cooling strategies using the so-called exceptional points (corresponding to a couple of coalescing resonances). All these proposals rest on the predictions of a purely adiabatic Floquet theory. In this work we compare the Floquet model with an exact wavepacket propagation taking into account the accompanying non-adiabatic effects. We search for signatures of a given exceptional point in the wavepacket dynamics and we discuss the role of the non-adiabatic interaction between the resonances blurring the ideal Floquet scheme. Moreover, we derive an optimal laser field to achieve, within acceptable compromise and rationalizing the unavoidable non-adiabatic contamination, the expected population inversions. The molecular system taken as an illustrative example is H_{2}^{+}.</p>
2013-06-26 00:00:00
adiabatic Floquet theory
population inversion
Floquet scheme
vibrational states
Floquet theory
population inversions
wavepacket propagation
6 nm
cooling strategies
compromise
couple v
rotation sense
wavepacket dynamics
Floquet model
coalescing resonances
rm
laser field
30 fs
proposals rest
pulse duration Tmax