Add to ORKGThe Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the ionization regime in the presence of interfaces using tight-binding and band minima basis approaches and compared to the recent precision measurements. In contrast with previous effective mass-based results, the quadratic Stark coefficient obtained from both theories agrees closely with the experiments. It is also shown that there is a significant linear Stark effect for an impurity near the interface, whereas, far from the interface, the quadratic Stark effect dominates. This work represents the most sensitive and precise comparison between theory and experiment for single donor spin control. Such precise control of single donor spin st...
The dependence of the g factors of semiconductor donors on applied electric and magnetic fields is o...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
Donor electron spins in semiconductors make exceptional qubits because of their long coherence times...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
This research was funded by the joint EPSRC (EP/I035536) / NSF (DMR-1107606) Materials World Network...
Understanding the behavior of donor bound electronic states under electric and magnetic fields is a ...
We report Stark shift measurements for 121Sb donor electronspins in silicon using pulsed electron sp...
This PhD work took place in the framework of theoretical research aimed at implementation of quantu...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
This work combines an atomistic electronic structure simulation with many-electron transport method ...
Phosphorus donor nuclear spins in silicon couple weakly to the environment making them promising can...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
Spin properties of donor impurities in silicon have been investigated by electron spin resonance (ES...
The dependence of the g factors of semiconductor donors on applied electric and magnetic fields is o...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
Donor electron spins in semiconductors make exceptional qubits because of their long coherence times...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
This research was funded by the joint EPSRC (EP/I035536) / NSF (DMR-1107606) Materials World Network...
Understanding the behavior of donor bound electronic states under electric and magnetic fields is a ...
We report Stark shift measurements for 121Sb donor electronspins in silicon using pulsed electron sp...
This PhD work took place in the framework of theoretical research aimed at implementation of quantu...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
This work combines an atomistic electronic structure simulation with many-electron transport method ...
Phosphorus donor nuclear spins in silicon couple weakly to the environment making them promising can...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
Spin properties of donor impurities in silicon have been investigated by electron spin resonance (ES...
The dependence of the g factors of semiconductor donors on applied electric and magnetic fields is o...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
Donor electron spins in semiconductors make exceptional qubits because of their long coherence times...