The authors have employed a tunable Cooper-pair transistor, the sluice, with radio frequency control to pump current over a resistive circuit. They find that the charge transferred per pumping cycle can be controlled with the resolution of a single Cooper pair up to hundreds of pairs. The achieved nanoampere current features more than an order of magnitude improvement over the previously reported results and it is close to the theoretical maximum value for the measured sample.Peer reviewe
We study the effect of flux noise on the Cooper pair current of a superconducting charge pump. We ge...
We positioned semiconducting multiwalled carbon nanotube, using an atomic force microscope, between ...
We demonstrate nonadiabatic charge pumping utilizing a sequence of coherent oscillations between a s...
The authors have employed a tunable Cooper-pair transistor, the sluice, with radio frequency control...
We have experimentally demonstrated pumping of Cooper pairs in a single-island mesoscopic structure....
We introduce a Cooper pair “sluice” for the implementation of a frequency-locked current source. The...
We demonstrate controlled pumping of Cooper pairs down to the level of a single pair per cycle, usin...
We study adiabatic charge transfer in a superconducting Cooper-pair pump, focusing on the influence ...
Pumping characteristics were studied of a hybrid normal-metal/superconductor single-electron transis...
We analyze tunneling of Cooper pairs across voltage biased asymmetric single-Cooper-pair transistors...
We study theoretically current quantization in the charge turnstile based on the superconductor–norm...
Two different types of Cooper pair transistors, with Al and Nb islands, have been investigated in a ...
We utilize the band structure of a mesoscopic Josephson junction to construct low noise amplifiers. ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
A three-terminal nanotube device was fabricated from two multiwalled nanotubes by pushing one on top...
We study the effect of flux noise on the Cooper pair current of a superconducting charge pump. We ge...
We positioned semiconducting multiwalled carbon nanotube, using an atomic force microscope, between ...
We demonstrate nonadiabatic charge pumping utilizing a sequence of coherent oscillations between a s...
The authors have employed a tunable Cooper-pair transistor, the sluice, with radio frequency control...
We have experimentally demonstrated pumping of Cooper pairs in a single-island mesoscopic structure....
We introduce a Cooper pair “sluice” for the implementation of a frequency-locked current source. The...
We demonstrate controlled pumping of Cooper pairs down to the level of a single pair per cycle, usin...
We study adiabatic charge transfer in a superconducting Cooper-pair pump, focusing on the influence ...
Pumping characteristics were studied of a hybrid normal-metal/superconductor single-electron transis...
We analyze tunneling of Cooper pairs across voltage biased asymmetric single-Cooper-pair transistors...
We study theoretically current quantization in the charge turnstile based on the superconductor–norm...
Two different types of Cooper pair transistors, with Al and Nb islands, have been investigated in a ...
We utilize the band structure of a mesoscopic Josephson junction to construct low noise amplifiers. ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
A three-terminal nanotube device was fabricated from two multiwalled nanotubes by pushing one on top...
We study the effect of flux noise on the Cooper pair current of a superconducting charge pump. We ge...
We positioned semiconducting multiwalled carbon nanotube, using an atomic force microscope, between ...
We demonstrate nonadiabatic charge pumping utilizing a sequence of coherent oscillations between a s...