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Related papers: g-factor engineering and control in self-assembled…

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Strong electrically tunable exciton g-factors are observed in individual (Ga)InAs self-assembled quantum dots and the microscopic origin of the effect is explained. Realistic eight band k.p simulations quantitatively account for our…

Mesoscale and Nanoscale Physics · Physics 2012-01-04 V. Jovanov , T. Eissfeller , S. Kapfinger , E. C. Clark , F. Klotz , G. Abstreiter , J. J. Finley

Single spins in the solid-state offer a unique opportunity to store and manipulate quantum information, and to perform quantum-enhanced sensing of local fields and charges. Optical control of these systems using techniques developed in…

Mesoscale and Nanoscale Physics · Physics 2013-02-28 Anthony J. Bennett , Matthew A. Pooley , Yameng Cao , Niklas Sköld , Ian Farrer , David A. Ritchie , Andrew J. Shields

Emerging theoretical concepts for quantum technologies have driven a continuous search for structures where a quantum state, such as spin, can be manipulated efficiently. Central to many concepts is the ability to control a system by…

Mesoscale and Nanoscale Physics · Physics 2020-01-14 Heidi Potts , I-Ju Chen , Athanasios Tsintzis , Malin Nilsson , Sebastian Lehmann , Kimberly A. Dick , Martin Leijnse , Claes Thelander

We study the g-factor of discrete electron states in InAs nanowire based quantum dots. The g values are determined from the magnetic field splitting of the zero bias anomaly due to the spin 1/2-Kondo effect. Unlike to previous studies based…

Mesoscale and Nanoscale Physics · Physics 2015-05-13 S. Csonka , L. Hofstetter , F. Freitag , S. Oberholzer , T. S. Jespersen , M. Aagesen , J. Nygard , C. Schonenberger

The determination and control of the electron $g$-factor in semiconductor quantum dots (QDs) are fundamental prerequisites in modern concepts of spintronics and spin-based quantum computation. We study the dependence of the $g$-factor on…

Mesoscale and Nanoscale Physics · Physics 2014-01-07 Samuel d'Hollosy , Gábor Fábián , Andreas Baumgartner , Jesper Nygård , Christian Schönenberger

We report a large g-factor tunability of a single hole spin in an InGaAs quantum dot via an electric field. The magnetic field lies in the in-plane direction x, the direction required for a coherent hole spin. The electrical field lies…

g-factor tuning of electrons in quantum dots is studied as function of in-plane and perpendicular magnetic fields for different confinements. Rashba and Dresselhaus effects are considered, and comparison is made between wide- and narrow-gap…

Mesoscale and Nanoscale Physics · Physics 2016-08-31 C. F. Destefani , Sergio E. Ulloa

Zeeman splitting of 1D hole subbands is investigated in quantum point contacts (QPCs) fabricated on a (311) oriented GaAs-AlGaAs heterostructure. Transport measurements can determine the magnitude of the g-factor, but cannot usually…

Mesoscale and Nanoscale Physics · Physics 2017-02-28 A. Srinivasan , K. L. Hudson , D. S. Miserev , L. A. Yeoh , O. Klochan , K. Muraki , Y. Hirayama , O. P. Sushkov , A. R. Hamilton

Electrically tunable g-factors in quantum dots are highly desirable for applications in quantum computing and spintronics. We report giant modulation of the hole g-factor in a SiGe nanocrystal when an electric field is applied to the…

Mesoscale and Nanoscale Physics · Physics 2013-03-11 N. Ares , V. N. Golovach , G. Katsaros , M. Stoffel , F. Fournel , L. I. Glazman , O. G. Schmidt , S. De Franceschi

Spin qubits composed of either one or three electrons are realized in a quantum dot formed at a Si/SiO_2-interface in isotopically enriched silicon. Using pulsed electron spin resonance, we perform coherent control of both types of qubits,…

Mesoscale and Nanoscale Physics · Physics 2015-11-11 M. Veldhorst , R. Ruskov , C. H. Yang , J. C. C. Hwang , F. E. Hudson , M. E. Flatté , C. Tahan , K. M. Itoh , A. Morello , A. S. Dzurak

We investigate the wave functions, spectrum, and g-factor anisotropy of low-energy electrons confined to self-assembled, pyramidal InAs quantum dots (QDs) subject to external magnetic and electric fields. We present the construction of…

Mesoscale and Nanoscale Physics · Physics 2014-04-02 Robert Zielke , Franziska Maier , Daniel Loss

We evaluate the Lande g factor of electrons in quantum dots (QDs) fabricated from GaAs quantum well (QW) structures of different well width. We first determine the Lande electron g factor of the QWs through resistive detection of electron…

Mesoscale and Nanoscale Physics · Physics 2014-12-22 G. Allison , T. Fujita , K. Morimoto , S. Teraoka , M. Larsson , H. Kiyama , A. Oiwa , S. Haffouz , D. G. Austing , A. Ludwig , A. D. Wieck , S. Tarucha

A single hole spin in a semiconductor quantum dot has emerged as a quantum bit that is potentially superior to an electron spin. A key feature of holes is that they have a greatly reduced hyperfine interaction with nuclear spins, which is…

Mesoscale and Nanoscale Physics · Physics 2011-11-14 Alex Greilich , Samuel G. Carter , Danny Kim , Allan S. Bracker , Daniel Gammon

Spin qubits are typically operated in the lowest orbital of a quantum dot to minimize interference from nearby states. In valence-band hole systems, strong spin-orbit coupling links spin and orbital degrees of freedom, strongly influencing…

We show that the g-factor and the spin-flip time T_{1} of a heterojunction quantum dot is very sensitive to the band-bending interface electric field even in the absence of wave function penetration into the barrier. When this electric…

Mesoscale and Nanoscale Physics · Physics 2009-11-10 Rogerio de Sousa , S. Das Sarma

I describe a proposal to construct a quantum information processor using ferroelectrically coupled Ge/Si quantum dots. The spin of single electrons form the fundamental qubits. Small (<10 nm diameter) Ge quantum dots are optically excited…

Quantum Physics · Physics 2009-11-07 Jeremy Levy

We implement silicon quantum dot devices with two layers of gate electrodes using a self-alignment technique, which allows for ultra-small gate lengths and intrinsically perfect layer-to-layer alignment. In a double quantum dot system, we…

We theoretically model the spin-orbit interaction in silicon quantum dot devices, relevant for quantum computation and spintronics. Our model is based on a modified effective mass approach with spin-valley boundary conditions, derived from…

Mesoscale and Nanoscale Physics · Physics 2019-01-01 Rusko Ruskov , Menno Veldhorst , Andrew S. Dzurak , Charles Tahan

We show that the electron and hole Lande g factors in self-assembled III-V quantum dots have a rich structure intermediate between that expected for paramagnetic atomic impurities and for bulk semiconductors. Strain, dot geometry, and…

Materials Science · Physics 2007-05-23 Craig E. Pryor , Michael E. Flatté

The electron, hole, and exciton g-factors and diamagnetic coefficients have been calculated using envelope-function theory for cylindrical InAs/InP quantum dots in the presence of a magnetic field parallel to the dot symmetry axis. A clear…

Mesoscale and Nanoscale Physics · Physics 2012-05-22 J. van Bree , A. Yu. Silov , P. M. Koenraad , M. E. Flatté , C. E. Pryor
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