Reduced Kapitza Resistance Microwave Filter for Cryogenic Environments

Organization Name

international business machines corporation

Inventor(s)

Patryk Gumann of Tarrytown NY (US)

Salvatore Bernardo Olivadese of Stamford CT (US)

Reduced Kapitza Resistance Microwave Filter for Cryogenic Environments - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240204386 titled 'Reduced Kapitza Resistance Microwave Filter for Cryogenic Environments

Simplified Explanation

The patent application describes an architecture and techniques for creating a thermal decoupling device, which can be used in a cryogenic microwave filter to reduce heat flow between components.

• The thermal decoupling device includes a dielectric material and a conductive line, with a wall separating channels in the dielectric material and segments in the conductive line.
• The wall allows microwave signals to pass through while minimizing heat transfer between segments of the conductive line.

Key Features and Innovation

• Inclusion of a thermal decoupling device in a cryogenic microwave filter.
• Dielectric material with channels and conductive line with segments separated by a wall.
• Wall facilitates microwave signal propagation while reducing heat flow between segments.

Potential Applications

The technology can be used in cryogenic systems, microwave filters, and other applications where thermal management is crucial.

Problems Solved

• Minimizing heat transfer between components in cryogenic systems.
• Improving the performance and efficiency of microwave filters.

Benefits

• Enhanced thermal management in cryogenic environments.
• Improved signal integrity and reduced interference in microwave systems.

Commercial Applications

• Title: "Innovative Thermal Decoupling Technology for Cryogenic Microwave Filters"
• This technology can be applied in telecommunications, aerospace, and scientific research industries.
• Market implications include increased efficiency and reliability of cryogenic systems and microwave devices.

Prior Art

Further research can be conducted in the field of cryogenic thermal management and microwave filter design to explore existing technologies and innovations.

Frequently Updated Research

Stay updated on advancements in cryogenic technology, microwave engineering, and materials science for potential improvements in thermal decoupling devices.

Questions about Thermal Decoupling Technology

What are the key advantages of using a thermal decoupling device in cryogenic systems?

Using a thermal decoupling device helps reduce heat flow between components, improving overall system efficiency and performance.

How does the wall in the dielectric material facilitate signal propagation in the conductive line?

The wall acts as a barrier to heat transfer while allowing microwave signals to pass through, maintaining signal integrity within the system.

Original Abstract Submitted

an architecture for, and techniques for fabricating, a thermal decoupling device are provided. in some embodiments, thermal decoupling device can be included in a thermally decoupled cryogenic microwave filter. in some embodiments, the thermal decoupling device can comprise a dielectric material and a conductive line. the dielectric material can comprise a first channel that is separated from a second channel by a wall of the dielectric material. the conductive line can comprise a first segment and a second segment that are separated by the wall. the wall can facilitate propagation of a microwave signal between the first segment and the second segment and can reduce heat flow between the first segment and the second segment of the conductive line.