Add to ORKGWe demonstrate the possibility of engineering a single donor transistor directly from a phosphorous doped quantum dot by making use of the intrinsic glassy behaviour of the structure as well as the complex electron dynamics during cooldown. Characterisation of the device at low temperatures and in magnetic field shows single donors can be electrostatically isolated near one of the tunnel barrier with either a single or a doubly occupancy. Such a model is well supported by capacitance-based simulations. Ability of using the D0 of such isolated donor as a charge detector is demonstrated by observing the charge stability diagram of a nearby and capacitively coupled semi-connected double quantum dot.Comment: 10 pages, supplementary information ...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
We demonstrate sensitive detection of single charges using a planar tunnel junction 8.5 nm wide and ...
Electrical operation of room-temperature (RT) single dopant atom quantum dot (QD) transistors, based...
We present a single electron transistor (SET) based on an individual phosphorus dopant atom in an ep...
Single-electron transistors (SETs) in silicon (Si), where charge can be controlled at the one electr...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
As promising candidates for spin qubits, semiconductor quantum dots (QDs) have attracted tremendous ...
In this thesis, we present atomically precise donor-based electronic devices, fabricated using STM h...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
The reduction of nanoelectronic devices to sub-10 nm sizes raises the prospect of electronics at the...
Silicon is an attractive host material for spin-based quantum computing devices, due to its low magn...
As mass-produced silicon transistors have reached the nano-scale, their behavior and performances ar...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
We demonstrate sensitive detection of single charges using a planar tunnel junction 8.5 nm wide and ...
Electrical operation of room-temperature (RT) single dopant atom quantum dot (QD) transistors, based...
We present a single electron transistor (SET) based on an individual phosphorus dopant atom in an ep...
Single-electron transistors (SETs) in silicon (Si), where charge can be controlled at the one electr...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
As promising candidates for spin qubits, semiconductor quantum dots (QDs) have attracted tremendous ...
In this thesis, we present atomically precise donor-based electronic devices, fabricated using STM h...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Spin states of the electrons and nuclei of phosphorus donors in silicon are strong candidates for qu...
The reduction of nanoelectronic devices to sub-10 nm sizes raises the prospect of electronics at the...
Silicon is an attractive host material for spin-based quantum computing devices, due to its low magn...
As mass-produced silicon transistors have reached the nano-scale, their behavior and performances ar...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
International audienceRecent progresses in quantum dots technology allow fundamental studies of sing...
We demonstrate sensitive detection of single charges using a planar tunnel junction 8.5 nm wide and ...