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searching for Two-dimensional electron gas 39 found (63 total)

alternate case: two-dimensional electron gas

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Foundation for the pursuit of graphene science. The first paper, "Two dimensional electron gas properties of ultrathin epitaxial graphite", was presented in

Christopher R. (March 2009). "Quantum holographic encoding in a two-dimensional electron gas". Nature Nanotechnology. 4 (3): 167–172. doi:10.1038/nnano.2008

two-dimensional, leading many researchers to refer to it as a two-dimensional electron gas (2DEG). Two-dimensional does not mean that the conductivity has

research with the group, titled "Imaging Magnetic Focusing in a Two-Dimensional Electron Gas." Upon accepting a faculty position at Mount Holyoke College

PMID 10054489. G.Finkelstein; et al. (1995). "Optical Spectroscopy of a Two-Dimensional Electron Gas near the Metal-Insulator Transition". Phys. Rev. Lett. 74 (6):

are also available. These are useful for studying, e.g., the two-dimensional electron gas that characterizes a wide class of quantum dots. The code has

was used to image compressible and incompressible strips in a two-dimensional electron gas (2DEG) buried 50 nm below an insulating layer in a large magnetic

effect. The random disorder in the potential landscape of the two-dimensional electron gas plays a key role in the observation of topological sectors and

effect transistors whose operation relies on the formation of a two-dimensional electron gas (2DEG) are known as HEMTs. In HEMTS electric current flows between

temperature superconductors. The great interest in the study of the two-dimensional electron gas (2DEG) has also resulted in many investigations on the properties

Monte Carlo calculation of the Fermi-liquid parameters in the two-dimensional electron gas". Physical Review B. 50 (3): 1684–1694. arXiv:1307.4009. Bibcode:1994PhRvB

et al. (1988). "Quantized Conductance of Point Contacts in a Two-Dimensional Electron Gas". Physical Review Letters. 60 (9): 848–850. Bibcode:1988PhRvL

2019. Satoshi Hiyamizu et al., "Extremely High Mobility of Two-Dimensional Electron Gas in Selectively Doped GaAs/N-AlGaAs Heterojunction Structures

tight-binding model. Typically, the itinerant electrons that form the two-dimensional electron gas (2DEG) originate in atomic s and p orbitals. For the sake of

Characterization of Aperiodical Graphene Structures Created in a Two-Dimensional Electron Gas". Physical Review Letters. 113 (19): 196803. Bibcode:2014PhRvL

Lecture, December 8, 1998 Interplay of Disorder and Interaction in Two-Dimensional Electron Gas in Intense Magnetic Fields Faculty page at Princeton University

Lee (1980). "Magnetoresistance and Hall effect in a disordered two-dimensional electron gas". Phys. Rev. B. 22 (11): 5142. Bibcode:1980PhRvB..22.5142A. doi:10

(2022-10-26). "Class of distorted Landau levels and Hall phases in a two-dimensional electron gas subject to an inhomogeneous magnetic field". Physical Review

Serge (1 July 1988). "Theory of the photon-drag effect in a two-dimensional electron gas". Physical Review B. 38 (1): 87–96. Bibcode:1988PhRvB..38...87G

Awschalom, D. D. (2005). "Observation of spin Coulomb drag in a two-dimensional electron gas". Nature. 437 (7063). Springer Science and Business Media LLC:

gives rise to extremely high electron mobilities by creating a two dimensional electron gas within a dopant free region where very little scattering can

braids in space-time. Anyons can form from excitations in a cold two-dimensional electron gas in a very strong magnetic field and carry fractional units of

Tanatar, B.; Ceperley, D. M. (15 March 1989). "Ground state of the two-dimensional electron gas". Physical Review B. 39 (8). American Physical Society (APS):

wells (MQWs). DenBaars conducted a study in 2000 focusing the two-dimensional electron gas (2DEG) in AlGaN/GaN heterostructure field effect transistors

Fig 1: Edge channels of a sample with a two-dimensional electron gas

in 2D materials, such as graphene. In these 2D materials the two-dimensional electron gas has band gap energies generally much higher than the energy of

AlxGa12xAs barrier on the low-temperature density and mobility of the two-dimensional electron gas in GaAs/AlGaAs modulation-doped heterostructure Influence of

S2CID 18176116. B. Tanatar; D. M. Ceperley (1989). "Ground state of the two-dimensional electron gas". Phys. Rev. B. 39 (8): 5005–5016. Bibcode:1989PhRvB..39.5005T

KL + H D 3 {\displaystyle H_{\text{KL}}+H_{{\text{D}}3}} ). Two-dimensional electron gas in an asymmetric quantum well (or heterostructure) will feel

(1977-03-28). "Influence of a One-Dimensional Superlattice on a Two-Dimensional Electron Gas". Physical Review Letters. 38 (13): 722–725. Bibcode:1977PhRvL

M. (1985). "Direct measurement of the density of states of a two-dimensional electron gas". Physical Review B. 32 (4): 2696–2699. Bibcode:1985PhRvB..32

HEMTs (high-electron-mobility transistors, or HFETs), in which a two-dimensional electron gas with very high carrier mobility is used for charge transport

preferably, the barrier of a quantum well with donor impurities, a two-dimensional electron gas (2DEG) may be formed. Such a structure creates the conducting

London, 1979), p. 1231. “Inelastic light Scattering by the two-dimensional electron gas: fractional quantum Hall regime and beyond”. A. Pinczuk, B.S

Loss, Daniel (14 October 2003). "Anisotropic transport in a two-dimensional electron gas in the presence of spin-orbit coupling". Physical Review B. 68

West (2000). "High frequency conductivity of the high-mobility two-dimensional electron gas" (PDF). Applied Physics Letters. 76 (6): 745–747. Bibcode:2000ApPhL

GaAlAs/InGaAs/GaAs high electron mobility transistor structures including the two-dimensional electron gas density". Semiconductor Science and Technology. 8 (8). IOP Publishing:

and Philips Research discovered the quantized conductance in a two-dimensional electron gas. 1990: Mary-Claire King discovers the link between heritable

Radzihovsky, Leo (June 23, 2005). "Transition to zero resistance in a two-dimensional electron gas driven with microwaves". Physical Review B. 71 (23): 235322.