Add to ORKGIn recent advancements of quantum computing utilizing spin qubits, it has been demonstrated that this platform possesses the potential for implementing two-qubit gates with fidelities exceeding 99.5%. However, as with other qubit platforms, it is not feasible to completely turn qubit couplings off. This study aims to investigate the impact of coherent error matrices in gate set tomography by employing a double quantum dot. We evaluate the infidelity caused by residual exchange between spins and compare various mitigation approaches, including the use of adjusted timing through simple drives, considering different parameter settings in the presence of charge noise. Furthermore, we extend our analysis to larger arrays of exchange-coupled spin...
Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable q...
We study the problem of environmentally-induced decoherence in a near-critical one-dimensional syste...
A key ingredient for a quantum computer is the accurate manipulation of qubits in order to generate ...
The spin of an electron confined in semiconductor quantum dots is currently a promising candidate fo...
The SWAP gate facilitates the exchange of quantum states between qubits and is integral to quantum a...
The SWAP gate facilitates the exchange of quantum states between qubits and is integral to quantum a...
We determine the interqubit crosstalk- and charge-noise-induced decoherence time $T_2^\ast$ for a sy...
Quantum processors based on integrated nanoscale silicon spin qubits are a promising platform for hi...
In semiconductor spin qubits which typically interact through short-range exchange coupling, shuttli...
The promise of quantum information technology hinges on the ability to control large numbers of qubi...
Practical Quantum computing hinges on the ability to control large numbers of qubits with high fidel...
High-fidelity quantum gate operations are essential for achieving scalable quantum circuits. In spin...
A scalable spin-based quantum processor requires a suitable semiconductor heterostructure and a gate...
The spin degree of freedom of an electron or a nucleus is one of the most basic properties of nature...
Dynamical decoupling of spin qubits in silicon can enhance fidelity and be used to extract the frequ...
Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable q...
We study the problem of environmentally-induced decoherence in a near-critical one-dimensional syste...
A key ingredient for a quantum computer is the accurate manipulation of qubits in order to generate ...
The spin of an electron confined in semiconductor quantum dots is currently a promising candidate fo...
The SWAP gate facilitates the exchange of quantum states between qubits and is integral to quantum a...
The SWAP gate facilitates the exchange of quantum states between qubits and is integral to quantum a...
We determine the interqubit crosstalk- and charge-noise-induced decoherence time $T_2^\ast$ for a sy...
Quantum processors based on integrated nanoscale silicon spin qubits are a promising platform for hi...
In semiconductor spin qubits which typically interact through short-range exchange coupling, shuttli...
The promise of quantum information technology hinges on the ability to control large numbers of qubi...
Practical Quantum computing hinges on the ability to control large numbers of qubits with high fidel...
High-fidelity quantum gate operations are essential for achieving scalable quantum circuits. In spin...
A scalable spin-based quantum processor requires a suitable semiconductor heterostructure and a gate...
The spin degree of freedom of an electron or a nucleus is one of the most basic properties of nature...
Dynamical decoupling of spin qubits in silicon can enhance fidelity and be used to extract the frequ...
Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable q...
We study the problem of environmentally-induced decoherence in a near-critical one-dimensional syste...
A key ingredient for a quantum computer is the accurate manipulation of qubits in order to generate ...