Resonant and anti‐resonant modes of the dilute, spin‐inbalanced, two‐dimensional electron liquid including correlations

Kreil, Dominik; Staudinger, Clemens; Astleithner, Katharina; Böhm, Helga M.

doi:10.1002/ctpp.201700147

Cited by 6 publications

(5 citation statements)

References 43 publications

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“…Another crucial feature of partially polarised 2DELs are lines ω(q), where the system ignores external stimulation ("anti-resonances") [26,45]. Along ω mAR (q) it cannot be excited by a magnetic field; similarly, for ω vAR (q) external stress variations cause no response.…”

Section: Resonances and Anti-resonances -mentioning

confidence: 99%

“…Plasmon pole approximation. In order to deepen the understanding of the physics behind these new modes and anti-resonances, the plasmon pole approximation (PPA) (also single-mode or Bijl-Feynman approximation) [1] suits best [26]. We briefly outline it for the spin-and valley-sensitive case.…”

Section: Resonances and Anti-resonances -mentioning

confidence: 99%

“…Based on the random phase approximation (RPA) for the partially spin-polarised single-valley 2DEL, Agarwal et al [24] predicted a long-lived spin-plasmon. In a more advanced approach [25,26] it is substantially lowered in energy ω; further, a significant gap emerged in the particle-hole excitations of the majority spins, where magnetic perturbations cannot influence their behaviour.…”

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confidence: 99%

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Dynamic response of partially spin- and valley-polarised two-dimensional electron liquids

Schober¹,

Kreil²,

Böhm³

2020

EPL

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The growing field of valleytronics provides new promising physics. Here, we focus on the collective modes of an infinitely thin electron layer with a binary valley degree of freedom that is unequally occupied. The spin populations are allowed to be imbalanced, too. This system can support four collective modes and two anti-resonances emerge. We study this copious dynamics in the spin-and valley-sensitive random phase approximation (RPA) and explain the uncommon behaviour by building a bridge from the many-fermion system to its bosonic counterpart. For completeness, we also report the RPA exchange and correlation energies for arbitrary spin and valley polarisation. A phase transition occurs at rS ≈ 6 from the four-component to the ferromagnetic, single-valley-occupation state.

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Section: Resonances and Anti-resonances -mentioning

confidence: 99%

Section: Resonances and Anti-resonances -mentioning

confidence: 99%

mentioning

confidence: 99%

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Dynamic response of partially spin- and valley-polarised two-dimensional electron liquids

Schober¹,

Kreil²,

Böhm³

2020

EPL

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“…The obtained results are shown in Table 1. According to Tendero et al, [72] the plasma temperature varies from 0.67 eV (plasma envelop) to 1.36 eV (plasma core), which enables high-temperature applications (the use of the thermal effect of the plasma). [67] In addition, an increase in the excitation temperature with the increase in the number of pulses was observed.…”

Section: Spectroscopic Analysismentioning

confidence: 99%

“…Nemcova et al [70] and Run Liu et al [71] have suggested that a ceramic film can be formed due to increased heating from the larger discharges, leading to more extensive melting of the coating during the arc process. According to Tendero et al, [72] the plasma temperature varies from 0.67 eV (plasma envelop) to 1.36 eV (plasma core), which enables high-temperature applications (the use of the thermal effect of the plasma). The melting and boiling points of WC are 2942 and 6203 K, respectively.…”

Section: Spectroscopic Analysismentioning

confidence: 99%

Plasma diagnostic and microstructural study of WCN coatings growth by pulsed vacuum arc discharge

Escobar

Ospina

Quintero

et al. 2018

Contributions to Plasma Physics

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In this work, we present a study of the plasma evolution during tungsten carbon nitride (WCN) coatings production using the repetitive pulsed arc technique. For the coatings production, a tungsten carbide (WC) target, and a mixture of argon and nitrogen as the filled gas were used. The study was carried out for discharges generated with one, two, three, and four pulses. The WCN coatings were characterized by X-ray diffraction (XRD) to identify the phases present in this material. The plasma was experimentally studied by optical emission spectroscopy (OES). A correlation was found between the spectral lines behavior and the material composition evolution. As the number of pulses increased, the intensity of the spectral lines also increased, especially in the case of the atomic lines of nitrogen, NI. The results were analysed to obtain information regarding the reactions in the plasma, as well as the electron temperature and density.

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Spin-polarized plasmon in ferromagnetic metals

Yang

Wang

2021

Physica A: Statistical Mechanics and its Applications

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Resonant and anti‐resonant modes of the dilute, spin‐inbalanced, two‐dimensional electron liquid including correlations

Cited by 6 publications

References 43 publications

Dynamic response of partially spin- and valley-polarised two-dimensional electron liquids

Dynamic response of partially spin- and valley-polarised two-dimensional electron liquids

Plasma diagnostic and microstructural study of WCN coatings growth by pulsed vacuum arc discharge

Spin-polarized plasmon in ferromagnetic metals

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