Add to ORKGπ/8 phase gates (magic gates or T gates) are crucial to augment topological systems based on Majorana zero modes to full quantum universality. We present a scheme based on a combination of projective measurements and nonadiabatic evolution that effectively cancels smooth control errors when implementing phase gates in Majorana-based systems. Previous schemes based on adiabatic evolution are susceptible to problems arising from small but finite dynamical phases that are generically present in topologically unprotected gates. A measurement-only approach eliminates dynamical phases. For nonprotected gates, however, forced-measurement schemes are no longer effective, which leads to low success probabilities of obtaining the right succession of...
Dynamically corrected gates are extended to non-Markovian open quantum systems where limitations on ...
We present designs for scalable quantum computers composed of qubits encoded in aggregates of four o...
Besides the intrinsic noise resilience property, nonadiabatic geometric phases are of the fast evolu...
π/8 phase gates (magic gates or T gates) are crucial to augment topological systems based on Majora...
A universal quantum computer requires a full set of basic quantum gates. With Majorana bound states ...
Majorana-based quantum computation seeks to encode information nonlocally in pairs of Majorana zero ...
Carrying out fault-tolerant topological quantum computation using non-Abelian anyons (e.g., Majorana...
Braiding of Majorana zero modes provides a promising platform for quantum information processing, wh...
Geometric phases, generated by cyclic evolutions of quantum systems, offer an inspiring playground f...
Color-code quantum computation seamlessly combines Majorana-based hardware with topological error co...
Topological quantum computing seeks to store and manipulate information in a protected manner using ...
We establish a unified framework for Majorana-based fault-tolerant quantum computation with Majorana...
Topological quantum computation encodes quantum information nonlocally by nucleating non-Abelian any...
Because Majorana zero modes store quantum information nonlocally, they are protected from noise, and...
A scheme to achieve quantum computation based on nonadiabatic geometric phase shifts was proposed. T...
Dynamically corrected gates are extended to non-Markovian open quantum systems where limitations on ...
We present designs for scalable quantum computers composed of qubits encoded in aggregates of four o...
Besides the intrinsic noise resilience property, nonadiabatic geometric phases are of the fast evolu...
π/8 phase gates (magic gates or T gates) are crucial to augment topological systems based on Majora...
A universal quantum computer requires a full set of basic quantum gates. With Majorana bound states ...
Majorana-based quantum computation seeks to encode information nonlocally in pairs of Majorana zero ...
Carrying out fault-tolerant topological quantum computation using non-Abelian anyons (e.g., Majorana...
Braiding of Majorana zero modes provides a promising platform for quantum information processing, wh...
Geometric phases, generated by cyclic evolutions of quantum systems, offer an inspiring playground f...
Color-code quantum computation seamlessly combines Majorana-based hardware with topological error co...
Topological quantum computing seeks to store and manipulate information in a protected manner using ...
We establish a unified framework for Majorana-based fault-tolerant quantum computation with Majorana...
Topological quantum computation encodes quantum information nonlocally by nucleating non-Abelian any...
Because Majorana zero modes store quantum information nonlocally, they are protected from noise, and...
A scheme to achieve quantum computation based on nonadiabatic geometric phase shifts was proposed. T...
Dynamically corrected gates are extended to non-Markovian open quantum systems where limitations on ...
We present designs for scalable quantum computers composed of qubits encoded in aggregates of four o...
Besides the intrinsic noise resilience property, nonadiabatic geometric phases are of the fast evolu...