Add to ORKGHydrogen masers used as aids in meeting the routine frequency and time operational requirements within the 64 m antenna Deep Space Network. Both the operational syntonation (frequency synchronization) and the the clock (epoch) synchronization requirements were established through the use of specifically calibrated H-P E215061A flying clock. The sync/synt to UTC was maintained using LORAN and TV in simultaneous reception mode. The sync/synt within the 64 m net was maintained through the use of very long base interferometry. Results indicate that the hydrogen masers perform well within the required specifications
The fundamental theoretical limitations of the maser, systematic processes that cause instability, a...
We describe a program for the design and testing of atomic hydrogen (H) masers for general purpose u...
NASA has frequency and timing systems at many facilities and centers. Timing systems with specificat...
There are two hydrogen maser clocks located at each signal processing center (SPC) in the DSN. Close...
The world-wide Deep Space Network (DSN), with facilities in the United States, Spain, and Australia,...
The concept of placing a hydrogen maser high stability clock in Earth orbit to provide accurate time...
An atomic hydrogen maser clock system designed for long term operation in space will be installed on...
Automatic tuning system permits frequency synchronization between two hydrogen masers. System matche...
Hydrogen maser frequency standards are commonly utilised in various space geodetic techniques such a...
The consolidation on the existing Deep Space Network (DSN) and colocated Goddard Spaceflight Trackin...
A proposed system for high-accuracy global time and frequency transfer using a hydrogen maser clock ...
Optimal construction of atomic hydrogen frequency standard for spacecraft applicatio
A 100-MHz reference frequency from a hydrogen maser frequency standard has been transmitted via opti...
Field operable hydrogen masers based on prior maser designs are presented. These units incorporate i...
Hydrogen maser clocks have exhibited fractional frequency stabilities of better than 1 x 10-15 for a...
The fundamental theoretical limitations of the maser, systematic processes that cause instability, a...
We describe a program for the design and testing of atomic hydrogen (H) masers for general purpose u...
NASA has frequency and timing systems at many facilities and centers. Timing systems with specificat...
There are two hydrogen maser clocks located at each signal processing center (SPC) in the DSN. Close...
The world-wide Deep Space Network (DSN), with facilities in the United States, Spain, and Australia,...
The concept of placing a hydrogen maser high stability clock in Earth orbit to provide accurate time...
An atomic hydrogen maser clock system designed for long term operation in space will be installed on...
Automatic tuning system permits frequency synchronization between two hydrogen masers. System matche...
Hydrogen maser frequency standards are commonly utilised in various space geodetic techniques such a...
The consolidation on the existing Deep Space Network (DSN) and colocated Goddard Spaceflight Trackin...
A proposed system for high-accuracy global time and frequency transfer using a hydrogen maser clock ...
Optimal construction of atomic hydrogen frequency standard for spacecraft applicatio
A 100-MHz reference frequency from a hydrogen maser frequency standard has been transmitted via opti...
Field operable hydrogen masers based on prior maser designs are presented. These units incorporate i...
Hydrogen maser clocks have exhibited fractional frequency stabilities of better than 1 x 10-15 for a...
The fundamental theoretical limitations of the maser, systematic processes that cause instability, a...
We describe a program for the design and testing of atomic hydrogen (H) masers for general purpose u...
NASA has frequency and timing systems at many facilities and centers. Timing systems with specificat...