We examine the effect of cold dark matter on the discrimination between the two enantiomers of a chiral molecule. We estimate the energy difference between the two enantiomers due to the interaction between fermionic WIMPs (weak interacting massive particles) and molecular electrons on the basis that electrons have opposite helicities in opposite enantiomers. It is found that this energy difference is completely negligible. Dark matter could then be discarded as an inductor of chiroselection between enantiomers and then of biological homochirality. However, the effect of cosmological neutrinos, revisited with the currently accepted neutrino density, would reach, in the most favorable case, an upper bound of the same order of magnitude as the energy difference obtained from the well-known electroweak electron-nucleus interaction in some molecules.
[1]
Richard I. Hartley,et al.
Chirality
,
2004,
International Journal of Computer Vision.
[2]
John Ellis,et al.
Int. J. Mod. Phys.
,
2005
.
[3]
D. Cline.
On the physical origin of the homochirality of life
,
2005,
European Review.
[4]
Hans-Peter Schertl,et al.
Geochim. cosmochim. acta
,
1989
.
[5]
Michael E Peski.
Supersymmetry: Theory
,
2022
.
[6]
G. G. Stokes.
"J."
,
1890,
The New Yale Book of Quotations.
[7]
D. Cline.
On the determination of the physical origin of homochirality in life
,
1996
.
[8]
R. Rosenfeld.
Nature
,
2009,
Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.