Quantum Electronics. Probing Johnson Noise and Ballistic Transport in Normal Metals with a Single-spin Qubit

Overview

Journal Science

Specialty Science

Date 2015 Feb 1

PMID 25636797

Citations 25

Authors

S Kolkowitz

A Safira

A A High

R C Devlin

S Choi

Q P Unterreithmeier

D Patterson

A S Zibrov

V E Manucharyan

H Park

M D Lukin

Affiliations

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Abstract

Thermally induced electrical currents, known as Johnson noise, cause fluctuating electric and magnetic fields in proximity to a conductor. These fluctuations are intrinsically related to the conductivity of the metal. We use single-spin qubits associated with nitrogen-vacancy centers in diamond to probe Johnson noise in the vicinity of conductive silver films. Measurements of polycrystalline silver films over a range of distances (20 to 200 nanometers) and temperatures (10 to 300 kelvin) are consistent with the classically expected behavior of the magnetic fluctuations. However, we find that Johnson noise is markedly suppressed next to single-crystal films, indicative of a substantial deviation from Ohm's law at length scales below the electron mean free path. Our results are consistent with a generalized model that accounts for the ballistic motion of electrons in the metal, indicating that under the appropriate conditions, nearby electrodes may be used for controlling nanoscale optoelectronic, atomic, and solid-state quantum systems.

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