D. R. Mace | Researchain

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Featured researches published by D. R. Mace.

Physical Review B | 1998

Interaction effects in a one-dimensional constriction

K. J. Thomas; J. T. Nicholls; N. J. Appleyard; M. Y. Simmons; M. Pepper; D. R. Mace; W. R. Tribe; D. A. Ritchie

We have investigated the transport properties of one-dimensional (1D) constrictions defined by split-gates in high quality

Applied Physics Letters | 1995

Ballistic transport in one‐dimensional constrictions formed in deep two‐dimensional electron gases

K. J. Thomas; M. Y. Simmons; J. T. Nicholls; D. R. Mace; M. Pepper; D. A. Ritchie

{\mathrm{G}\mathrm{a}\mathrm{A}\mathrm{s}/\mathrm{A}\mathrm{l}}_{x}{\mathrm{Ga}}_{1\ensuremath{-}x}\mathrm{As}

Physical Review Letters | 1999

DETECTION OF COULOMB CHARGING AROUND AN ANTIDOT IN THE QUANTUM HALL REGIME

M. Kataoka; C. J. B. Ford; G. Faini; D. Mailly; M. Y. Simmons; D. R. Mace; Chi-Te Liang; D. A. Ritchie

heterostructures. In addition to the usual quantized conductance plateaus, the equilibrium conductance shows a structure close to

Journal of Physics: Condensed Matter | 1996

On the acoustoelectric current in a one-dimensional channel

J. M. Shilton; D. R. Mace; V. I. Talyanskii; Yu. I. Gal'Perin; M. Y. Simmons; M. Pepper; D. A. Ritchie

{0.7(2e}^{2}/h)

Applied Physics Letters | 1993

Aharonov–Bohm effect and one‐dimensional ballistic transport through two independent parallel channels

P.J. Simpson; D. R. Mace; C. J. B. Ford; I. Zailer; M. Pepper; D. A. Ritchie; J. E. F. Frost; M. P. Grimshaw; G. A. C. Jones

, and in consolidating our previous work [K. J. Thomas et al., Phys. Rev. Lett. 77, 135 (1996)] this 0.7 structure has been investigated in a wide range of samples as a function of temperature, carrier density, in-plane magnetic field

Journal of Physics: Condensed Matter | 1995

Experimental study of the acoustoelectric effects in GaAs-AlGaAs heterostructures

J. M. Shilton; D. R. Mace; V. I. Talyanskii; M. Y. Simmons; M. Pepper; A. C. Churchill; D. A. Ritchie

{B}_{\ensuremath{\Vert}},

Applied Physics Letters | 1991

Tunneling between totally quantized levels in GaAs/AlGaAs asymmetric triple-barrier heterostructures in high magnetic fields

H. Asahi; M. Tewordt; R. T. Syme; M. J. Kelly; V. J. Law; D. R. Mace; J. E. F. Frost; D. A. Ritchie; G. A. C. Jones; M. Pepper

and source-drain voltage

Physical Review B | 1996

REENTRANT RESONANT TUNNELING

V.V. Kuznetsov; A. K. Savchenko; M. E. Raikh; Leonid I. Glazman; D. R. Mace; E. H. Linfield; D. A. Ritchie

{V}_{\mathrm{sd}}.

Microelectronics Journal | 1995

The growth of high mobility heterostructures on (311)B GaAs

M. Y. Simmons; A. C. Churchill; Gil-Ho Kim; A. R. Hamilton; A. Kurobe; D. R. Mace; D. A. Ritchie; M. Pepper

We show that the 0.7 structure is not due to transmission or resonance effects, nor does it arise from the asymmetry of the heterojunction in the growth direction. All the 1D subbands show Zeeman splitting at high

Journal of Physics: Condensed Matter | 1995