Electronic properties and polaronic dynamics of semi-Dirac system within Ladder approximation

Wu, Chen-Huan

doi:10.1088/1402-4896/ab5fd8

Cited by 8 publications

(2 citation statements)

References 124 publications

(215 reference statements)

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“…ε k is energy of the electron before excitation. There are the four point vertices g ψf in the second line of above formula, which is widely seen in the T-matrix approximation [6][7][8][9][10]. Note that in many-particle generalization, we have the average † † † † † † y y y y y y y y y y y y á ñ = á ñá ñ -á ñá ñ + -+ -+ -+ p q k q k p p q p k q k p q k k q p…”

Section: Modelmentioning

confidence: 95%

Bipolaron formed through electron-hole excitation

2020

Phys. Scr.

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We investigate the electronic properties and electron correlations of the bipolaron formed with the participation of electron-hole excitations in the presence of Yukawa-type coupling (between nonrelativistic fermions) in three spatial dimension. The electron-hole excitation, which is necessary to the formation of bipolaron, leads to imaginary particle-hole channel order parameter, and provide finite boson field mass to the single-polaron dispersion in a broken-symmetry phase. We found that the bipolaron exhibits fermi-liquid features as long as the long-range strong interaction is suppressed, and it behave differently compared to the single-polaron. The bosonic momentum determines the mass of boson field propagator and the gap function, and it also related to the self-energies and the single-particle Green’s functions. The Thouless criterion is also used during the calculation of gap equation at critical temperature (which becomes lower in weak-coupling regime), which corresponds to the pole (instability) of the pair propagator in zero center-of-mass freamwork. The mean field term and the bosonic fluctuation-induced contribution to free energy in Aslamazov-Larkin-type bipolaron diagram are also studied.

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Section: Modelmentioning

confidence: 95%

Bipolaron formed through electron-hole excitation

2020

Phys. Scr.

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“…There are the four point vertices in the second line of above formula, which is widely seen in the T -matrix approximation [1,2,3,4,5]. Note that in many-particle generalization, we have the average ψ † p 1 −q ψ † k+q ψ k ψ p = ψ † p 1 −q ψ p ψ † k+q ψ k − ψ † p 1 −q ψ k ψ † k+q ψ p + Π(p 1 , k), where Π(p 1 , k) is the pair propagator.…”

Section: Modelmentioning

confidence: 99%

Bipolaron formed through electron-hole excitation

2020

Preprint

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We investigate the electronic properties and electron correlations of the bipolaron formed by the electron-hole excitations in the presence of Yukawa-type coupling (between nonrelativistic fermions) in three spatial dimension. The electron-hole excitation, which is necessary to the formation of bipolaron, leads to imaginary particle-hole order parameter, and provide finite boson field mass to the single-polaron dispersion in a broken-symmetry phase. We found that the bipolaron exhibits fermi-liquid features as long as the long-range strong interaction is suppressed, and it behave differently compared to the single-polaron. The bosonic momentum determines the mass of boson field propagator and the gap function, and it also related to the self-energies and the single-particle Green's functions. The Thouless criterion is also used during the calculation of gap equation at critical temperature (which become lower in weakcoupling regime), which corresponds to the pole (instability) of the pair propagator in zero center-of-mass freamwork. The mean field term and the bosonic fluctuationinduced contribution to free energy in Aslamazov-Larkin-type bipolaron diagram are also studied.

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Attractive polaron formed in doped nonchiral/chiral parabolic system within ladder approximation

2020

Physica B: Condensed Matter

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We investigate the properties of attractive polaron formed by a single impurity dressed with the particle-hole excitations in a three-dimensional (3D) doped (extrinsic) parabolic system. Base on the single particle-hole variational ansatz, we study the pair propagator, self-energy, and the non-self-consistent medium T -matrix. The non-self-consistent T -matrix discussed in this paper contains only the open channel since we don't consider the shift of center-of-mass due to the resonance (e.g., induced by the magnetic field). Besides, since we focus on the low-density regime of the majority particles, the effective Fermi wave vector is small. The scattering form factor is discussed in detail for the chiral case and compared to the non-chiral one. The effects of the bare coupling strength, which is momentum-cutoff-dependent, are also discussed. We found that the pair propagator and the related quantities, like the self-energy, spectral function, induced effective mass, and residue (spectral weight), all exhibit different features in the low-momentum regime and the high one, which also related to the polaronic instabilities as well as the many-body fluctuation and nonadiabatic/adiabatic dynamics. The pair-propagator and the energy relaxation time at finite temperature are also explored.

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Electronic properties and polaronic dynamics of semi-Dirac system within Ladder approximation

Cited by 8 publications

References 124 publications

Bipolaron formed through electron-hole excitation

Bipolaron formed through electron-hole excitation

Bipolaron formed through electron-hole excitation

Attractive polaron formed in doped nonchiral/chiral parabolic system within ladder approximation

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