A.G.P. Troeman scite author profile

Superconducting quantum interference devices (SQUIDs) based on niobium nanobridges have been produced by means of focused ion beam milling. Typical critical currents of 4−25 μA and flux sensitivities of 40−200 μV/Φ0 were measured for sensors based on 80 nm wide, 50 nm thick, and 150 nm long bridges. A white flux noise level of 1.5 μΦ0/Hz1/2 was measured for a device with an area of 900 μm2 and a critical current of 15 μA. The effective area of the smallest produced SQUID was 3.6 × 10-2 μm2. Possible applications for such miniature SQUIDs are in scanning SQUID microscopy and the study of magnetic nanoparticles.

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Electrically Excited, Localized Infrared Emission from Single Carbon Nanotubes

Freitag

Tsang

Kirtley

et al. 2006

Nano Lett.

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Carbon nanotube field-effect transistors (CNTFETs) produce band gap derived infrared emission under both ambipolar and unipolar transport conditions. We demonstrate here that heterogeneities/defects in the local environment of a CNTFET perturb the local potentials and, as a result, the characteristic bias dependent motion of the ambipolar light emission. Such defects can also introduce localized infrared emission due to impact excitation by carriers accelerated by a voltage drop at the defect. The correlation of the change in the motion of the ambipolarlight emission and of the stationary electroluminescence with the electrical characteristics of the CNTFETs shows that stationaryelectroluminescence can identify "environmental defects" in carbon nanotubes and help evaluate their influence on electrical transport and device operation. A number of different defects are studied involving local dielectric environment changes (partially polymer-covered nanotubes), nanotube-nanotube contacts in looped nanotubes, and nanotube segments close to the electronic contacts. Random defects due to local charging are also observed.

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Vortex trapping and expulsion in thin-filmYBa2Cu3O7−δstrips

et al. 2008

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A scanning SQUID microscope was used to image vortex trapping as a function of the magnetic induction during cooling in thin-film YBa2Cu3O 7−δ (YBCO) strips for strip widths W from 2 to 50 µm. We found that vortices were excluded from the strips when the induction Ba was below a critical induction Bc. We present a simple model for the vortex exclusion process which takes into account the vortex -antivortex pair production energy as well as the vortex Meissner and self-energies. This model predicts that the real density n of trapped vortices is given by n = (Ba − BK )/Φ0 with BK = 1.65Φ0/W 2 and Φ0 = h/2e the superconducting flux quantum. This prediction is in good agreement with our experiments on YBCO, as well as with previous experiments on thin-film strips of niobium. We also report on the positions of the trapped vortices. We found that at low densities the vortices were trapped in a single row near the centers of the strips, with the relative intervortex spacing distribution width decreasing as the vortex density increased, a sign of longitudinal ordering. The critical induction for two rows forming in the 35 µm wide strip was (2.89 + 1.91 − 0.93)Bc, consistent with a numerical prediction.

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Temperature dependence measurements of the supercurrent-phase relationship in niobium nanobridges

et al. 2008

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The current-phase relationship has been measured as a function of temperature for niobium nanobridges with different widths. A deformation from Josephson-like sinusoidal characteristics at high temperatures to sawtooth shaped curves at intermediate and multivalued relationships at low temperatures was observed. Based on this, possible hysteresis in the current-voltage characteristics of niobium nanobridge superconducting quantum interference devices can be attributed to phase slippage.

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Interplay between Static and Dynamic Properties of Semifluxons inYBa2Cu3O7−δ0
Cedergren
¹
,
Kirtley
²
,
Rotoli
³

et al. 2010
Phys. Rev. Lett.
15
0
11
0
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We have investigated the static and dynamic properties of long YBa2Cu3O(7-delta) 0-pi Josephson junctions and compared them with those of conventional 0 junctions. Scanning SQUID microscope imaging has revealed the presence of a semifluxon at the phase discontinuity point in 0-pi Josephson junctions. Zero field steps have been detected in the current-voltage characteristics of all junctions. Comparison with simulation allows us to attribute these steps to fluxons traveling in the junction for conventional 0 junctions and to fluxon-semifluxon interactions in the case of 0-pi Josephson junctions.

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A.G.P. Troeman

NanoSQUIDs Based on Niobium Constrictions

Electrically Excited, Localized Infrared Emission from Single Carbon Nanotubes

Vortex trapping and expulsion in thin-filmYBa2Cu3O7−δstrips

Temperature dependence measurements of the supercurrent-phase relationship in niobium nanobridges

Interplay between Static and Dynamic Properties of Semifluxons inYBa2Cu3O7−δ0
Cedergren
¹
,
Kirtley
²
,
Rotoli
³

et al. 2010
Phys. Rev. Lett.
15
0
11
0
View full text Add to dashboard Cite

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About

A.G.P. Troeman

NanoSQUIDs Based on Niobium Constrictions

Electrically Excited, Localized Infrared Emission from Single Carbon Nanotubes

Vortex trapping and expulsion in thin-filmYBa2Cu3O7−δstrips

Temperature dependence measurements of the supercurrent-phase relationship in niobium nanobridges

Interplay between Static and Dynamic Properties of Semifluxons inYBa2Cu3O7−δ0Cedergren1, Kirtley2, Rotoli3 et al. 2010Phys. Rev. Lett.150110View full textAdd to dashboardCite

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Interplay between Static and Dynamic Properties of Semifluxons inYBa2Cu3O7−δ0
Cedergren
¹
,
Kirtley
²
,
Rotoli
³

et al. 2010
Phys. Rev. Lett.
15
0
11
0
View full text Add to dashboard Cite