Systems and Methods for Suppressing Magnetically Active Surface Defects in Superconducting Circuits

a superconducting circuit and surface defect technology, applied in the field of superconducting quantum circuits and devices, can solve the problem of appreciable magnetic noise in superconducting quantum circuits, and achieve the effect of appreciable magnetic noise, reducing or eliminating the source of nois

Active Publication Date: 2016-09-01
WISCONSIN ALUMNI RES FOUND
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Benefits of technology

[0007]The present disclosure introduces a novel approach for controlling noise in superconducting quantum circuits that overcomes the drawbacks of previous technologies. Specifically, the present disclosure recognizes that dominant sources of noise can arrive via molecular species found in ambient surroundings, rather than inherently from materials and geometries utilized therein. For instance, molecular oxygen is a magnetically active species that exhibits long range magne...

Problems solved by technology

Adsorption of molecular oxygen can lead to appreciable magnetic no...

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  • Systems and Methods for Suppressing Magnetically Active Surface Defects in Superconducting Circuits
  • Systems and Methods for Suppressing Magnetically Active Surface Defects in Superconducting Circuits
  • Systems and Methods for Suppressing Magnetically Active Surface Defects in Superconducting Circuits

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Embodiment Construction

[0022]Surface effects, such as magnetically active defects, can represent significant sources of noise that can impede or limit the functionality of certain superconducting devices. For example, recent investigations by the inventors demonstrated that the dominant contribution to magnetic flux noise observable in superconducting quantum bit (“qubit”) devices originated from oxygen-containing adsorbates that produced a high density of magnetically active defects at the surface of superconducting devices. Such low-frequency magnetic flux noise represents a dominant source of dephasing, a key figure of merit for superconducting qubit operation.

[0023]Therefore, the present disclosure describes systems and methods directed to controlling the environment of superconducting quantum circuits for purposes including mitigating potential sources of noise, such as magnetic noise, found therein. For instance, as will be described, the density of surface defects, such as magnetically active surfa...

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Abstract

Systems and methods for suppressing magnetically active surface defects in superconducting quantum circuits are provided. A method includes providing one or more superconducting quantum circuits, and arranging the one or more superconducting quantum circuits in a hermetic enclosure capable of isolating the one or more superconducting circuits from ambient surroundings. The method also includes controlling an environment in the hermetic enclosure to suppress magnetically active surface defects associated with the one or more superconducting quantum circuits. In some aspects, the method further includes introducing an inert gas into the hermetic enclosure to passivate a surface of the one or more superconducting quantum circuits. In other aspects, the method further includes coating a surface of the one or more superconducting circuits with a non-magnetic encapsulation layer. In yet other aspects, the method further includes irradiating the one or more superconducting circuits using ultraviolet light.

Description

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH[0001]This invention was made with government support under W911NF-10-1-0494 and W911NF-09-1-0375 awarded by the ARMY / ARO. The government has certain rights in the invention.BACKGROUND OF THE INVENTION[0002]The field of the disclosure is directed to superconducting quantum circuits and devices. More particularly, the disclosure is directed to systems and methods related to quantum information processing and quantum computation.[0003]Superconducting integrated circuits are finding increased use in a variety of applications. For instance, in the field of quantum computation, the performance of superconducting quantum bits (“qubits”) has advanced rapidly in recent years, with preliminary multi-qubit implementations leading toward scalable, surface code architectures. In contrast to classical computational methods that rely on binary data stored in the form of definite on / off states, or bits, methods in quantum computation take advantage o...

Claims

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Application Information

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IPC IPC(8): H01L39/04H01L39/24H01L27/18
CPCH01L39/045H01L39/2493H01L27/18G06N10/00H10N60/815H10N60/0912H10N69/00
Inventor MCDERMOTT III, ROBERT FRANCISKUMAR, PRADEEP
Owner WISCONSIN ALUMNI RES FOUND
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