Terahertz cyclotron emission from two-dimensional Dirac fermions

Gebert, S.; Consejo, C.; Криштопенко, С. С.; Ruffenach, Sandra; Szola, M.; Torres, J.; Jouault, Benoît; Орлита, М.; Baudry, Xavier; Ballet, P.; Morozov, S. V.; Гавриленко, В. И.; Михайлов, Н. Н.; Дворецкий, С. А.; Теппе, Ф.

doi:10.1038/s41566-022-01129-1

Cited by 9 publications

(6 citation statements)

References 54 publications

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“…This evolution is driven by the cyclotron mass of the sample, determined by its electron carrier density, through the quasi-classical formula E = (ℏe/mc)B [5]. We measured samples with different electron densities and extracted the cyclotron mass [6]. The behavior of the latter with the electron density is in perfect agreement with a low energy model that we developed.…”

Section: Resultssupporting

confidence: 60%

“…6,7 , N. N. Mikhailov 8,9 , S. A. Dvoretskii 8,10 & F. Teppe1 1 Laboratoire Charles Coulomb (L2C), UMR 5221 CNRS-Université de Montpellier, Montpellier, France, 2 Institut d'Electronique et des Systèmes (IES), UMR 5214 CNRS, Université de Montpellier, Montpellier, France 3. Laboratoire National des Champs Magnétiques Intenses, CNRS-UGA-UPSINSA-EMFL, Grenoble, France 4.…”

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“…Institute of Physics, Charles University, Prague, Czech Republic 5. CEA, LETI, MINATEC Campus, DOPT, Grenoble, France 6. Institute for Physics of Microstructures of Russian Academy of Sciences, Nizhny Novgorod, Russia.…”

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confidence: 99%

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Tunable Terahertz Cyclotron Emission from Two-Dimensional Dirac Fermions

Benhamou--Bui,

Gebert,

Szola

et al. 2023

2023 48th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz)

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Section: Resultssupporting

confidence: 60%

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Tunable Terahertz Cyclotron Emission from Two-Dimensional Dirac Fermions

Benhamou--Bui,

Gebert,

Szola

et al. 2023

2023 48th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz)

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“…Here, we report extremely strong THz nonlinearity in 2D TIs based on single HgTe/CdTe QW. 20 Epitaxial HgTe layers have been investigated using linear cw and time-domain THz spectroscopy, 21,22 including photogalvanic effect, 23 giant Faraday rotation, 24 and terahertz cyclotron emission, 25 but nonlinearity has not been reported so far. We find a nonlinear third-order susceptibility χ (3) ≈ 5 × 10 −9 m 2 V −2 , i.e., a factor of 5 higher than that in graphene, representing the record value for bare materials without any field-enhancement structures.…”

Section: ■ Introductionmentioning

confidence: 99%

Giant THz Nonlinearity in Topological and Trivial HgTe-Based Heterostructures

Uaman Svetikova,

de Oliveira,

Pashkin

et al. 2023

ACS Photonics

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Nonlinear phenomena in the THz spectral domain are important for understanding the optoelectronic properties of quantum systems and provide a basis for modern information technologies. Here, we report a giant THz nonlinearity in high-mobility 2D topological insulators based on HgTe quantum wells, which manifests itself in a highly efficient third harmonic generation. We observe a third harmonic THz susceptibility several times higher than that in bare graphene and many orders of magnitude higher than that in trivial quantum well structures based on other materials. To explain the strong nonlinearity of HgTe-based heterostructures at the THz frequencies, we consider the acceleration of free carriers with a high mobility and variable dispersion. This acceleration model, for which the nonparabolicity of the band dispersion is key, in combination with independently measured scattering time and conductivity, is in good agreement with our experimental data in a wide temperature range for THz fields below the saturation. Our approach provides a route to material engineering for THz applications based on frequency conversion.

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“…In such processes, an electron in the excited LL n + 1 can be promoted due to electron-electron interactions to the LL n + 2 while the required energy is provided by a simultaneous desexcitation of another electron from n+1 to n. Instead of using one excited electron to emit a photon of frequency ω c , two electrons in the LL n + 1 are thus lost without emission of any photon. Another obstacle equally related to equisitant LLs is reabsorption of cyclotron light due to the transition (n + 1) → (n + 2), which is resonant with the (n + 1) → n transition used in the emission of light [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Topological interface states - A possible path towards a Landau-level laser in the THz regime

Goerbig

2023

SciPost Phys.

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Volkov-Pankratov surface bands arise in smooth topological interfaces, interfaces between a topological and a trivial insulator, in addition to the chiral surface state imposed by the bulk-surface correspondence of topological materials. These two-dimensional bands become Landau-quantized if a magnetic field is applied perpendicular to the interface. I show that the energy scales, which are typically in the 10-10010−100 meV range, can be controlled both by the perpendicular magnetic field and the interface width. The latter can still be varied with the help of a magnetic-field component in the interface. The Landau levels of the different Volkov-Pankratov bands are optically coupled, and their arrangement may allow one to obtain population inversion by optical pumping. This could serve as the elementary brick of a multi-level laser based on Landau levels. Moreover, the photons are absorbed and emitted either parallel or perpendicular to the magnetic field, respectively in the Voigt and Faraday geometry, depending on the Volkov-Pankratov bands and Landau levels involved in the optical transitions.

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Terahertz cyclotron emission from two-dimensional Dirac fermions

Cited by 9 publications

References 54 publications

Tunable Terahertz Cyclotron Emission from Two-Dimensional Dirac Fermions

Tunable Terahertz Cyclotron Emission from Two-Dimensional Dirac Fermions

Giant THz Nonlinearity in Topological and Trivial HgTe-Based Heterostructures

Topological interface states - A possible path towards a Landau-level laser in the THz regime

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