Maximum density of quantum information in a scalable CMOS implementation of the hybrid qubit architecture
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Title
Maximum density of quantum information in a scalable CMOS implementation of the hybrid qubit architecture
Authors
Keywords
Hybrid qubit, Silicon, Quantum dot, Large scale integration
Journal
Quantum Information Processing
Volume 15, Issue 6, Pages 2253-2274
Publisher
Springer Nature
Online
2016-03-21
DOI
10.1007/s11128-016-1282-3
References
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Note: Only part of the references are listed.- A compact T-shaped nanodevice for charge sensing of a tunable double quantum dot in scalable silicon technology
- (2016) M.L.V. Tagliaferri et al. PHYSICS LETTERS A
- Universal set of quantum gates for double-dot exchange-only spin qubits with intradot coupling
- (2015) M De Michielis et al. Journal of Physics A-Mathematical and Theoretical
- A two-qubit logic gate in silicon
- (2015) M. Veldhorst et al. NATURE
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- (2015) Yuval R Sanders et al. NEW JOURNAL OF PHYSICS
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- (2015) Sebastian Mehl PHYSICAL REVIEW B
- Coherent tunneling by adiabatic passage of an exchange-only spin qubit in a double quantum dot chain
- (2015) E. Ferraro et al. PHYSICAL REVIEW B
- High-fidelity resonant gating of a silicon-based quantum dot hybrid qubit
- (2015) Dohun Kim et al. npj Quantum Information
- A surface code quantum computer in silicon
- (2015) C. D. Hill et al. Science Advances
- Quantum control and process tomography of a semiconductor quantum dot hybrid qubit
- (2014) Dohun Kim et al. NATURE
- An addressable quantum dot qubit with fault-tolerant control-fidelity
- (2014) M. Veldhorst et al. Nature Nanotechnology
- Storing quantum information for 30 seconds in a nanoelectronic device
- (2014) Juha T. Muhonen et al. Nature Nanotechnology
- Coherent Control of a SingleSi29Nuclear Spin Qubit
- (2014) Jarryd J. Pla et al. PHYSICAL REVIEW LETTERS
- Effective Hamiltonian for the hybrid double quantum dot qubit
- (2014) E. Ferraro et al. Quantum Information Processing
- Effective Hamiltonian for two interacting double-dot exchange-only qubits and their controlled-NOT operations
- (2014) E. Ferraro et al. Quantum Information Processing
- Spin-dependent recombination and single charge dynamics in silicon nanostructrures
- (2014) D. Rotta et al. European Physical Journal Plus
- Steady-State Coherent Transfer by Adiabatic Passage
- (2013) Jan Huneke et al. PHYSICAL REVIEW LETTERS
- High-fidelity gates in quantum dot spin qubits
- (2013) T. S. Koh et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Quantum error correction for beginners
- (2013) Simon J Devitt et al. REPORTS ON PROGRESS IN PHYSICS
- Room-Temperature Quantum Bit Storage Exceeding 39 Minutes Using Ionized Donors in Silicon-28
- (2013) K. Saeedi et al. SCIENCE
- Prospects for Spin-Based Quantum Computing in Quantum Dots
- (2013) Christoph Kloeffel et al. Annual Review of Condensed Matter Physics
- Ultrafast universal quantum control of a quantum-dot charge qubit using Landau–Zener–Stückelberg interference
- (2013) Gang Cao et al. Nature Communications
- Geometrical Effects on Valley-Orbital Filling Patterns in Silicon Quantum Dots for Robust Qubit Implementation
- (2012) Marco De Michielis et al. Applied Physics Express
- Charge dynamics of a single donor coupled to a few-electron quantum dot in silicon
- (2012) G. Mazzeo et al. APPLIED PHYSICS LETTERS
- Few electron limit of n-type metal oxide semiconductor single electron transistors
- (2012) Enrico Prati et al. NANOTECHNOLOGY
- Coherent singlet-triplet oscillations in a silicon-based double quantum dot
- (2012) B. M. Maune et al. NATURE
- A single-atom electron spin qubit in silicon
- (2012) Jarryd J. Pla et al. NATURE
- Anderson–Mott transition in arrays of a few dopant atoms in a silicon transistor
- (2012) Enrico Prati et al. Nature Nanotechnology
- Fast Hybrid Silicon Double-Quantum-Dot Qubit
- (2012) Zhan Shi et al. PHYSICAL REVIEW LETTERS
- Demonstration of Entanglement of Electrostatically Coupled Singlet-Triplet Qubits
- (2012) M. D. Shulman et al. SCIENCE
- Switching quantum transport in a three donors silicon fin-field effect transistor
- (2011) Guillaume Leti et al. APPLIED PHYSICS LETTERS
- Transversality Versus Universality for Additive Quantum Codes
- (2011) Bei Zeng et al. IEEE TRANSACTIONS ON INFORMATION THEORY
- Embracing the quantum limit in silicon computing
- (2011) John J. L. Morton et al. NATURE
- Electron spin coherence exceeding seconds in high-purity silicon
- (2011) Alexei M. Tyryshkin et al. NATURE MATERIALS
- Natural and artificial atoms for quantum computation
- (2011) Iulia Buluta et al. REPORTS ON PROGRESS IN PHYSICS
- Quantum computers
- (2010) T. D. Ladd et al. NATURE
- Single-shot readout of an electron spin in silicon
- (2010) Andrea Morello et al. NATURE
- Dephasing time of GaAs electron-spin qubits coupled to a nuclear bath exceeding 200 μs
- (2010) Hendrik Bluhm et al. Nature Physics
- Coherent spin manipulation in an exchange-only qubit
- (2010) E. A. Laird et al. PHYSICAL REVIEW B
- Spin dynamics in semiconductors
- (2010) M.W. Wu et al. PHYSICS REPORTS-REVIEW SECTION OF PHYSICS LETTERS
- Compact silicon double and triple dots realized with only two gates
- (2009) M. Pierre et al. APPLIED PHYSICS LETTERS
- Transport Spectroscopy of Single Phosphorus Donors in a Silicon Nanoscale Transistor
- (2009) Kuan Yen Tan et al. NANO LETTERS
- Giant random telegraph signal generated by single charge trapping in submicron n-metal-oxide-semiconductor field-effect transistors
- (2008) Enrico Prati et al. JOURNAL OF APPLIED PHYSICS
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