Theory of Green functions of free Dirac fermions in graphene

The reduction formulas for Dirac fermions is derived using the exact solutions of free Dirac equation on de Sitter space–time. In the framework of the perturbation theory one studies the Green functions and derives the scattering amplitude in the first orders of perturbation theory.

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Two-point Green functions of free Dirac fermions in single-layer graphene ribbons with zigzag and armchair edges

Advances in Natural Sciences Nanoscience and Nanotechnology ◽

10.1088/2043-6262/7/4/045004 ◽

2016 ◽

Vol 7 (4) ◽

pp. 045004

Author(s):

Van Hieu Nguyen ◽

Bich Ha Nguyen ◽

Ngoc Dung Dinh ◽

Ngoc Anh Huy Pham ◽

Van Thanh Ngo

Keyword(s):

Single Layer ◽

Single Layer Graphene ◽

Green Functions ◽

Dirac Fermions ◽

Layer Graphene

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Gauge-invariant Green functions of Dirac fermions coupled to gauge fields

Physical Review B ◽

10.1103/physrevb.65.235111 ◽

2002 ◽

Vol 65 (23) ◽

Cited By ~ 22

Author(s):

D. V. Khveshchenko

Keyword(s):

Gauge Fields ◽

Green Functions ◽

Dirac Fermions ◽

Gauge Invariant

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Bulk-Boundary Correspondence for Non-Hermitian Hamiltonians via Green Functions

Physical Review Letters ◽

10.1103/physrevlett.126.216407 ◽

2021 ◽

Vol 126 (21) ◽

Cited By ~ 1

Author(s):

Heinrich-Gregor Zirnstein ◽

Gil Refael ◽

Bernd Rosenow

Keyword(s):

Green Functions ◽

Boundary Correspondence

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Xenon-1T excess as a possible signal of a sub-GeV hidden sector dark matter

Journal of High Energy Physics ◽

10.1007/jhep02(2021)229 ◽

2021 ◽

Vol 2021 (2) ◽

Author(s):

Amin Aboubrahim ◽

Michael Klasen ◽

Pran Nath

Keyword(s):

Dark Matter ◽

Particle Physics ◽

Small Mass ◽

Big Bang ◽

Mass Splitting ◽

Recoil Energy ◽

Dirac Fermions ◽

Dark Sector ◽

Dark Photon ◽

Physics Model

Abstract We present a particle physics model to explain the observed enhancement in the Xenon-1T data at an electron recoil energy of 2.5 keV. The model is based on a U(1) extension of the Standard Model where the dark sector consists of two essentially mass degenerate Dirac fermions in the sub-GeV region with a small mass splitting interacting with a dark photon. The dark photon is unstable and decays before the big bang nucleosynthesis, which leads to the dark matter constituted of two essentially mass degenerate Dirac fermions. The Xenon-1T excess is computed via the inelastic exothermic scattering of the heavier dark fermion from a bound electron in xenon to the lighter dark fermion producing the observed excess events in the recoil electron energy. The model can be tested with further data from Xenon-1T and in future experiments such as SuperCDMS.

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Green functions for confined quarks

Nuclear Physics B ◽

10.1016/0550-3213(76)90243-1 ◽

1976 ◽

Vol 109 (3) ◽

pp. 421-438 ◽

Cited By ~ 3

Author(s):

C.J. Hamer

Keyword(s):

Green Functions

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Levinson-type inequalities via new Green functions and Montgomery identity

Open Mathematics ◽

10.1515/math-2020-0163 ◽

2020 ◽

Vol 18 (1) ◽

pp. 632-652 ◽

Cited By ~ 1

Author(s):

Muhammad Adeel ◽

Khuram Ali Khan ◽

Ðilda Pečarić ◽

Josip Pečarić

Keyword(s):

Convex Functions ◽

Green Functions ◽

Montgomery Identity ◽

Data Points

Abstract In this study, Levinson-type inequalities are generalized by using new Green functions and Montgomery identity for the class of k-convex functions (k ≥ 3). Čebyšev-, Grüss- and Ostrowski-type new bounds are found for the functionals involving data points of two types. Moreover, a new functional is introduced based on {\mathfrak{f}} divergence and then some estimates for new functional are obtained. Some inequalities for Shannon entropies are obtained too.

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High-frequency rectifiers based on type-II Dirac fermions

Nature Communications ◽

10.1038/s41467-021-21906-w ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Libo Zhang ◽

Zhiqingzi Chen ◽

Kaixuan Zhang ◽

Lin Wang ◽

Huang Xu ◽

...

Keyword(s):

High Frequency ◽

Dynamic Range ◽

High Sensitivity ◽

High Dynamic Range ◽

Anisotropy Ratio ◽

Dirac Fermions ◽

Topological States ◽

Topological Semimetals ◽

Polarized Surface ◽

Symmetry Protected

AbstractThe advent of topological semimetals enables the exploitation of symmetry-protected topological phenomena and quantized transport. Here, we present homogeneous rectifiers, converting high-frequency electromagnetic energy into direct current, based on low-energy Dirac fermions of topological semimetal-NiTe2, with state-of-the-art efficiency already in the first implementation. Explicitly, these devices display room-temperature photosensitivity as high as 251 mA W−1 at 0.3 THz in an unbiased mode, with a photocurrent anisotropy ratio of 22, originating from the interplay between the spin-polarized surface and bulk states. Device performances in terms of broadband operation, high dynamic range, as well as their high sensitivity, validate the immense potential and unique advantages associated to the control of nonequilibrium gapless topological states via built-in electric field, electromagnetic polarization and symmetry breaking in topological semimetals. These findings pave the way for the exploitation of topological phase of matter for high-frequency operations in polarization-sensitive sensing, communications and imaging.

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