Related papers: Coherent single-spin electron resonance spectroscopy manifested at an exceptional-point singularity in a doped polyacetylene

Coherent single-spin electron resonance spectroscopy manifested at an exceptional-point singularity in a doped polyacetylene

URL: http://arxiv.org/abs/2012.14655v1
Date: Tue, 29 Dec 2020 08:30:25 GMT
Title: Coherent single-spin electron resonance spectroscopy manifested at an exceptional-point singularity in a doped polyacetylene
Authors: Yujin Dunham, Kazuki Kanki, Savannah Garmon, Gonzalo Ordonez, Satoshi Tanaka
Abstract summary: Spin-dependent charge transfer decay in an alkali atom doped polyacetylene is studied in terms of the complex spectral analysis. Nonhermitian effective Hamiltonian has been derived from the total system hermitian Hamiltonian.
Score: 1.8986796884429729
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Spin-dependent charge transfer decay in an alkali atom doped polyacetylene is studied in terms of the complex spectral analysis, revealing the single-spin Zeeman splitting influenced by the spin-orbit interaction. Nonhermitian effective Hamiltonian has been derived from the total system hermitian Hamiltonian using Brillouin-Wigner-Feshbach projection method, where the microscopic spin-dependent dissipation effect is correctly incorporated in the energy-dependent self-energy. Since the present method maintains the dynamical and chiral symmetries of the total system, we discovered two types of exceptional point (EP) singularities in a unified perspective: the EP surface and EP ring are attributed to the dynamical and chiral symmetry breaking, respectively. We have revealed that the coherent single-spin electron resonance (SSESR) spectrum reflects the complex eigenenergy spectrum of the system. We have formulated the SSESR spectrum in terms of the nonlinear response function in the Liouville-space pathway approach, where we have constructed the Liouville space basis using the complex eigenstates of the total Hamiltonian. We have calculated the one- and two-dimensional Fourier transform SSESR (1DFT and 2DFT) spectra reflecting the spin-relaxation dynamics at the donor site. While the 1DFT SSESR spectrum reflects the complex eigenenergy spectrum, the 2DFT gives detailed information on the quantum coherence in the spin-relaxation dynamics as a cross-correlation between the two frequencies. We found a giant response of the coherent SSESR around the EP ring singularity due to the vanishing normalization factors at the EP ring and the resonance effect. We have discovered that the giant response is much larger in magnitudes in the 2DFT spectrum than in the 1DFT spectrum, which promises the 2DFT SSESR a useful tool to observe the single-spin response in a molecule.

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