Multi-Radical Lipkin-Meshkov-Glick Model for Avian Navigation [article]

Jia-Yi Wu, Xin-Yuan Hu, Hai-Yuan Zhu, Ru-Qiong Deng, Qing Ai
2022 arXiv   pre-print
The mechanism of avian navigation is an important question for global scientists. One of the most famous candidates is the radical pair mechanism (RPM), which shows that avian navigation is achieved by detecting the amount of products from chemical reactions, which exhibit different properties for singlet and triplet spin states. Based on the theory, we explore the amount of the the singlet recombination product by changing the coupling strength and direction of the magnetic field. The radical
more » ... air in our model is coupled with a Lipkin-Meshkov-Glick (LMG) bath, which proposes attractive results at quantum phase transition (QPT) point, especially when the magnetic field is parallel with the original direction of the pair. We find weakest navigation ability in QPT point according to one of our proposing methods. And we find invariant subspace in our Hamiltonian when the magnetic field is vertical to the plane of the radical pair and the bath, which will greatly speed up our calculation. Our results could help the exploration of the design principle of artificial avian navigation.
arXiv:2203.01805v1 fatcat:t6wkqi4ihnc7tfmm7drm3dodlm