Electron Tunneling and the Josephson Effect. Electron Tunneling through an Insulator.

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Presentation transcript:

Electron Tunneling and the Josephson Effect

Electron Tunneling through an Insulator

POSSIBLE NEW EFFEC'F3 IN SUPERCONDUCTIVE TUNNELLING * B. D. JOSEPHSON Cavendish Laboratory, Cambridge. England Received 8 June 1962

SQUID Magnetometer The superconducting quantum interference device (SQUID) consists of two superconductors separated by thin insulating layers to form two parallel Josephson junctions. The device may be configured as a magnetometer to detect incredibly small magnetic fields -- small enough to measure the magnetic fields in living organisms. Squids have been used to measure the magnetic fields in mouse brains to test whether there might be enough magnetism to attribute their navigational ability to an internal compass. Josephson junctionsmagnetic fields The great sensitivity of the SQUID devices is associated with measuring changes in magnetic field associated with one flux quantum. One of the discoveries associated with Josephson junctions was that flux is quantized in units If a constant biasing current is maintained in the SQUID device, the measured voltage oscillates with the changes in phase at the two junctions, which depends upon the change in the magnetic flux. Counting the oscillations allows you to evaluate the flux change which has occurred.

When a DC voltage is applied to a Josephson junction, an oscillation of frequencyJosephson junction occurs at the junction. Since this relationship of voltage to frequency involves only fundamental constants and since frequency can be measured with extreme accuracy, the Josephson junction has become the standard voltage measurement. Josephson junction standards can yield voltages with accuracies of one part in 10^10. NIST has produced a chip with series junctions to measure voltages on the order of 10 volts with this accuracy.