Issue 38, 2011

Stabilization of chiral molecules by decoherence and environment interactions in the gas phase

Abstract

We study the tunnel dynamics of a chiral molecule between its left (L) and right (R) conformations, under the global effect of collisional decoherence together with the effect of a mean-field generated by the environment where an energetic difference, K, between homochiral and heterochiral interactions is assumed. We show that this decoherence leads unavoidably to equal populations of the L and R chiral conformations even for a high enough value of K which tends to keep localized an initial chiral state. However, we also show that K contributes to the stabilization of an initial L or R state for times that could be many orders of magnitude larger than the tunneling time, in the case the decoherence rate is much greater than the tunneling rate. In this case, an estimation of this stabilization time and a critical tunneling time is made. Even in the case in which the tunneling rate is greater than the decoherence rate, the effect of K is to keep localized the initial chiral state for times greater than the tunneling time. A possible slight chiral asymmetry is also considered.

Graphical abstract: Stabilization of chiral molecules by decoherence and environment interactions in the gas phase

Article information

Article type
Paper
Submitted
27 May 2011
Accepted
01 Aug 2011
First published
24 Aug 2011

Phys. Chem. Chem. Phys., 2011,13, 17130-17134

Stabilization of chiral molecules by decoherence and environment interactions in the gas phase

I. Gonzalo and P. Bargueño, Phys. Chem. Chem. Phys., 2011, 13, 17130 DOI: 10.1039/C1CP21729A

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