Practical Quantum Realization of the Ampere from the Elementary Charge
نویسندگان
چکیده
One major change of the future revision of the International System of Units is a new definition of the ampere based on the elementary charge e. Replacing the former definition based on Ampère’s force law will allow one to fully benefit from quantum physics to realize the ampere. However, a quantum realization of the ampere from e, accurate to within 10−8 in relative value and fulfilling traceability needs, is still missing despite the many efforts made for the development of single-electron tunneling devices. Starting again with Ohm’s law, applied here in a quantum circuit combining the quantum Hall resistance and Josephson voltage standards with a superconducting cryogenic amplifier, we report on a practical and universal programmable quantum current generator. We demonstrate that currents generated in the milliampere range are accurately quantized in terms of efJ (fJ is the Josephson frequency) with measurement uncertainty of 10−8. This new quantum current source, which is able to deliver such accurate currents down to the microampere range, can greatly improve the current measurement traceability, as demonstrated with the calibrations of digital ammeters. In addition, it opens the way to further developments in metrology and in fundamental physics, such as a quantum multimeter or new accurate comparisons to single-electron pumps.
منابع مشابه
On a natural definition of the kilogram and the ampere
We consider a recent proposal [1] to redefine the kilogram in terms of natural constants. In our opinion, the main objective of the redefinition should be to build such a version of the SI system in which the electric measurements are possible with the highest accuracy in SI units, and not in practical units as now. We emphasize that this objective can be achieved only with a simultaneous redef...
متن کاملThree-waveform bidirectional pumping of single electrons with a silicon quantum dot
Semiconductor-based quantum dot single-electron pumps are currently the most promising candidates for the direct realization of the emerging quantum standard of the ampere in the International System of Units. Here, we discuss a silicon quantum dot single-electron pump with radio frequency control over the transparencies of entrance and exit barriers as well as the dot potential. We show that o...
متن کاملTowards a Quantum Current Standard : a Single Electron Device Connected to a Ccc
The base electrical unit, the ampere, was defined in 1960 and its realization was carried out by means of a Pellat-type balance. This experiment was typically difficult, time consuming and the achieved uncertainty was close to 8.10. As a result, in practice, the realization of electrical units does not start with ampere of which the representation requires the volt and the ohm. Two discoveries ...
متن کاملStored Particle Atomic Research Collaboration
The Conceptual Design Report (CDR) on “An International Accelerator Facility for Beams of Ions and Antiprotons” formed the basis of the present Letter of Intent (LoI). The scientific motivation for a broad variety of atomic physics experiments with highly-charged heavy ions at the new facility and the first concepts of a practical realization are extensively reported in Section 2 of the CDR ent...
متن کاملCompressive and rarefactive dust-ion acoustic solitary waves in four components quantum plasma with dust-charge variation
Based on quantum hydrodynamics theory (QHD), the propagation of nonlinear quantum dust-ion acoustic (QDIA) solitary waves in a collision-less, unmagnetized four component quantum plasma consisting of electrons, positrons, ions and stationary negatively charged dust grains with dust charge variation is investigated using reductive perturbation method. The charging current to the dust grains ca...
متن کامل