Add to ORKGPhosphorus donor nuclear spins in silicon couple weakly to the environment making them promising candidates for high-fidelity qubits. The state of a donor nuclear spin qubit can be manipulated and read out using its hyperfine interaction with the electron confined by the donor potential. Here we use a master equation-based approach to investigate how the backaction from this electron-mediated measurement affects the lifetimes of single and multi-donor qubits. We analyze this process as a function of electric and magnetic fields, and hyperfine interaction strength. Apart from single nuclear spin flips, we identify an additional measurement-related mechanism, the nuclear spin flip-flop, which is specific to multi-donor qubits. Although this f...
This PhD work took place in the framework of theoretical research aimed at implementation of quantu...
Donor spins in silicon provide a promising material platform for large scale quantum computing. Exce...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
In this thesis we address critical challenges in the development of a two-qubit gate with spin dynam...
In this thesis we investigate donor molecules as a resource for scaling-up donor-based spin qubits i...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
Spin qubits in silicon are among the most promising candidates for building a scalable quantum proce...
Donor spins in silicon allow for extremely long storage of quantum information and provide accurate ...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
In this thesis we present single-shot spin readout of precision placed phosphorus donors in silicon....
Substitutional donor atoms in silicon are promising qubits for quantum computation with extremely lo...
We investigate multi-qubit device architectures for scalable donor-based quantum computing in silico...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
This PhD work took place in the framework of theoretical research aimed at implementation of quantu...
Donor spins in silicon provide a promising material platform for large scale quantum computing. Exce...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
In this thesis we address critical challenges in the development of a two-qubit gate with spin dynam...
In this thesis we investigate donor molecules as a resource for scaling-up donor-based spin qubits i...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
Spin qubits in silicon are among the most promising candidates for building a scalable quantum proce...
Donor spins in silicon allow for extremely long storage of quantum information and provide accurate ...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
In this thesis we present single-shot spin readout of precision placed phosphorus donors in silicon....
Substitutional donor atoms in silicon are promising qubits for quantum computation with extremely lo...
We investigate multi-qubit device architectures for scalable donor-based quantum computing in silico...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
This PhD work took place in the framework of theoretical research aimed at implementation of quantu...
Donor spins in silicon provide a promising material platform for large scale quantum computing. Exce...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...