Add to ORKGNASA Lewis Research Center is developing the enabling technologies for a cryogenic power system in conjunction with the NASA Jet Propulsion Laboratory (JPL) and universities. In addition, creative processes that could expand industrial participation in this program are being explored, such as the Small Business Innovation Research Program
Deep space probes and planetary exploration missions require electrical power management and control...
The application of superconducting technology in space has been limited by the requirement of coolin...
We have begun investigation and development of cryogenic semiconductor power devices (diodes, bipola...
Planetary exploration missions and deep space probes require electrical power management and control...
Electronic circuits and systems designed for deep space missions need to operate reliably and effici...
The operation of electronic systems at cryogenic temperatures is anticipated for many NASA spacecraf...
Many future NASA missions will require electronic parts and circuits that can operate reliably and e...
Planetary exploration missions and deep space probes require electrical power management and control...
Electronic components and systems capable of operation at cryogenic temperatures are anticipated in ...
The operation of electronic systems at cryogenic temperatures is anticipated for many future NASA sp...
In many future NASA missions, such as deep space planetary exploration and the Next Generation Space...
Electronic components and systems capable of low-temperature operation are needed for many future NA...
Electronic systems that are capable of operating at cryogenic temperatures will be needed for many f...
Deep space probes and planetary exploration missions require electrical power management and control...
Deep space probes and planetary exploration missions require electrical power management and control...
Deep space probes and planetary exploration missions require electrical power management and control...
The application of superconducting technology in space has been limited by the requirement of coolin...
We have begun investigation and development of cryogenic semiconductor power devices (diodes, bipola...
Planetary exploration missions and deep space probes require electrical power management and control...
Electronic circuits and systems designed for deep space missions need to operate reliably and effici...
The operation of electronic systems at cryogenic temperatures is anticipated for many NASA spacecraf...
Many future NASA missions will require electronic parts and circuits that can operate reliably and e...
Planetary exploration missions and deep space probes require electrical power management and control...
Electronic components and systems capable of operation at cryogenic temperatures are anticipated in ...
The operation of electronic systems at cryogenic temperatures is anticipated for many future NASA sp...
In many future NASA missions, such as deep space planetary exploration and the Next Generation Space...
Electronic components and systems capable of low-temperature operation are needed for many future NA...
Electronic systems that are capable of operating at cryogenic temperatures will be needed for many f...
Deep space probes and planetary exploration missions require electrical power management and control...
Deep space probes and planetary exploration missions require electrical power management and control...
Deep space probes and planetary exploration missions require electrical power management and control...
The application of superconducting technology in space has been limited by the requirement of coolin...
We have begun investigation and development of cryogenic semiconductor power devices (diodes, bipola...