Pumping characteristics were studied of a hybrid normal-metal/superconductor single-electron transistor embedded in high-Ohmic environment. Two 3 μm long microstrip resistors of CrOx with a sum resistance R≈80 kΩ were placed adjacent to the transistor. Substantial improvement of pumping and a reduction of the subgap leakage were observed in the low-megahertz range. At higher frequencies (0.1–1 GHz), pumping performance deteriorated compared to reference devices without resistors by the slowdown of tunneling and by electronic heating.Peer reviewe
We calculate the charge sensitivity of a recently demonstrated device where the Josephson inductance...
We present experiments on a superconductor–normal-metal electron refrigerator in a regime where sing...
We present the simultaneous operation of ten single-electron turnstiles leading to one order of magn...
Pumping characteristics were studied of a hybrid normal-metal/superconductor single-electron transis...
We study theoretically current quantization in the charge turnstile based on the superconductor–norm...
We have measured individual tunneling events and Coulomb step shapes in single-electron boxes with o...
We demonstrate experimentally that a hybrid single-electron transistor with superconducting leads an...
We have investigated the static, charge-trapping properties of a hybrid superconductor–normal metal ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
We investigate the behavior of quasiparticles in a hybrid electron turnstile with the aim of improvi...
We demonstrate a sensitive method of charge detection based on radio-frequency readout of the Joseph...
The authors have employed a tunable Cooper-pair transistor, the sluice, with radio frequency control...
We present an experimental study of hybrid turnstiles with high charging energies in comparison to t...
We have investigated radio-frequency single-electron transistor operation of single-walled carbon na...
We have suspended an Al based single-electron transistor (SET) whose island can resonate freely betw...
We calculate the charge sensitivity of a recently demonstrated device where the Josephson inductance...
We present experiments on a superconductor–normal-metal electron refrigerator in a regime where sing...
We present the simultaneous operation of ten single-electron turnstiles leading to one order of magn...
Pumping characteristics were studied of a hybrid normal-metal/superconductor single-electron transis...
We study theoretically current quantization in the charge turnstile based on the superconductor–norm...
We have measured individual tunneling events and Coulomb step shapes in single-electron boxes with o...
We demonstrate experimentally that a hybrid single-electron transistor with superconducting leads an...
We have investigated the static, charge-trapping properties of a hybrid superconductor–normal metal ...
A superconductor-normal metal-superconductor mesoscopic Josephson junction has been realized in whic...
We investigate the behavior of quasiparticles in a hybrid electron turnstile with the aim of improvi...
We demonstrate a sensitive method of charge detection based on radio-frequency readout of the Joseph...
The authors have employed a tunable Cooper-pair transistor, the sluice, with radio frequency control...
We present an experimental study of hybrid turnstiles with high charging energies in comparison to t...
We have investigated radio-frequency single-electron transistor operation of single-walled carbon na...
We have suspended an Al based single-electron transistor (SET) whose island can resonate freely betw...
We calculate the charge sensitivity of a recently demonstrated device where the Josephson inductance...
We present experiments on a superconductor–normal-metal electron refrigerator in a regime where sing...
We present the simultaneous operation of ten single-electron turnstiles leading to one order of magn...