Add to ORKGQuantum wave function engineering of dopant-based Si nano-structures reveals new physics in the solid-state, and is expected to play a vital role in future nanoelectronics. Central to any fundamental understanding or application is the ability to accurately characterize the deformation of the electron wave functions in these atom-based structures through electromagnetic field control. We present a method for mapping the subtle changes that occur in the electron wave function through the measurement of the hyperfine tensor probed by 29Si impurities. Our results show that detecting the donor electron wave function deformation is possible with resolution at the sub-Bohr radius level
We report Stark shift measurements for 121Sb donor electronspins in silicon using pulsed electron sp...
Electron spins are amongst the most coherent solid-state systems known. However, to be used in devic...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
Quantum wave function engineering of dopant-based Si nanostructures reveals new physics in the solid...
The exponential miniaturization of semiconductor technology over the past 50 years has ushered in an...
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...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
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 ...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
Spin qubits based on shallow donors in silicon are a promising quantum information technology with e...
Single donor atoms in semiconductor nanostructures are attractive basic components for quantum devic...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
We report Stark shift measurements for 121Sb donor electronspins in silicon using pulsed electron sp...
Electron spins are amongst the most coherent solid-state systems known. However, to be used in devic...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
Quantum wave function engineering of dopant-based Si nanostructures reveals new physics in the solid...
The exponential miniaturization of semiconductor technology over the past 50 years has ushered in an...
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...
Adiabatic shuttling of single impurity bound electrons to gate-induced surface states in semiconduct...
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 ...
The Stark shift of the hyperfine coupling constant is investigated for a P donor in Si far below the...
Spin qubits based on shallow donors in silicon are a promising quantum information technology with e...
Single donor atoms in semiconductor nanostructures are attractive basic components for quantum devic...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Phosphorus donor impurities in silicon are a promising candidate for solid-state quantum computing d...
We report Stark shift measurements for 121Sb donor electronspins in silicon using pulsed electron sp...
Electron spins are amongst the most coherent solid-state systems known. However, to be used in devic...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...